Tag: Chemistry

Mahadeva Swamy M, Chemistry, Innovative Researcher Award

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Dr. Mahadeva Swamy M: Assistant Professor at JSS College of Arts, Commerce and Science, India

Dr. Mahadeva Swamy M is a dedicated academic and accomplished researcher in the field of chemistry, with a strong focus on nanomaterials, environmental remediation, and green technologies. With over 14 years of teaching and research experience, he has significantly contributed to postgraduate education and scientific advancement. Currently serving as Assistant Professor at the Postgraduate Department of Chemistry, JSS College of Arts, Commerce, and Science, Mysuru, he also holds important academic leadership roles including Startup Cell Coordinator and NAAC Criteria-3 Member. His commitment to interdisciplinary research and innovation has led to the publication of over 30 high-impact papers, numerous patents, and active collaboration with national and international institutions.

Online Profiles

ORCID Profile 

Education

Dr. Swamy earned his Doctorate in Chemistry from Visvesvaraya Technological University, Belgaum in 2019, with research centered on the adsorption of dyes and heavy metals using low-cost biomass-derived activated carbon. His academic path includes a Master’s degree in Chemistry from Yuvaraja’s College (University of Mysore) in 2010, a Bachelor of Education (B.Ed.) in 2012 from Bengaluru University with specialization in Physics and Chemistry, and a Bachelor of Science in Chemistry in 2008, also from the University of Mysore. All his academic qualifications were obtained with first-class honors, reflecting a consistent record of academic excellence.

Research Focus

Dr. Swamy’s research revolves around the synthesis and application of nanostructured materials, particularly transition metal oxide nanoparticles like ZnO, CuO, MoO₃, NiO, and V₂O₅. His work emphasizes green synthesis methods using plant extracts and bio-wastes, aiming for environmentally friendly and cost-effective solutions. He is deeply involved in developing electrochemical sensors for detecting heavy metals and pharmaceuticals, investigating photocatalytic degradation of organic pollutants, and exploring the biomedical potential of nanoparticles. His integration of graph theory in material analysis is a novel approach that enhances understanding of molecular and structural behaviors in applied chemistry.

Experience

Over a span of more than 14 years, Dr. Swamy has contributed to the academic and scientific community through teaching, research, and institutional service. As an Assistant Professor at JSS College, he has mentored over 40 postgraduate students in their research projects, supported curriculum development, and led workshops on advanced chemical techniques. His roles as Startup Cell Coordinator and NAAC Criteria-3 team member reflect his administrative capabilities. Additionally, he has served as an invited speaker, session chair, reviewer for reputed journals, and judge at various academic and innovation events, thus bridging research with academic leadership.

Research Timeline & Activities

Dr. Swamy’s research career began with adsorption studies during his Ph.D., which led to significant developments in water purification techniques using low-cost activated carbon. From 2020 onwards, his focus shifted towards green nanotechnology and the synthesis of nanoparticles with multifunctional applications. Between 2020 and 2025, he published over 30 research papers in indexed journals such as Scientific Reports, Chemistry Africa, Ionics, and Inorganic Chemistry Communications. His innovative work is supported by 8 published Indian patents related to nanomaterial applications, and he has presented at over 25 national and international conferences. He has also authored books and chapters in collaboration with Taylor & Francis, RSC, and Cambridge Scholars Publishing.

Awards & Honors

Dr. Swamy’s professional excellence has been recognized through several academic honors. He serves as a Board of Studies (BOS) Member at Visvesvaraya Institute of Technology and has been invited to deliver special lectures at various academic institutions. He has chaired sessions at international conferences, such as AIMS-2020 and ICAMES-2023, and has served as a judge at state-level science exhibitions. His role as Startup Cell Coordinator at JSS College has earned appreciation for promoting student innovation. As a reviewer for leading journals including those from Springer, Elsevier, and Taylor & Francis, he continues to contribute to peer-reviewed science globally.

Top Noted Publications

Optimizing Parthenium Waste: Biomass-Derived Carbon Adsorbents for Adsorbing Amido Black 10B Dye Analyzed Through Graph Theory for Stability and Reactivity
Biomass Conversion and Biorefinery, April 2025
DOI: 10.1007/s13399-025-06786-0

This publication presents a novel approach to utilizing invasive Parthenium waste as a sustainable raw material for activated carbon adsorbents. The study employs graph theory to analyze molecular stability and reactivity, providing a unique computational perspective to enhance adsorption performance for dye remediation applications.

Synthesis, Characterization, and Application of Vanadium Pentoxide Nanoparticles: Insights from Green Extraction Methods, Photocatalytic, and Antibacterial Studies
Canadian Metallurgical Quarterly, March 2025
DOI: 10.1080/00084433.2025.2471634

This research focuses on the green synthesis of V₂O₅ nanoparticles using plant-based extracts. The nanoparticles were evaluated for their photocatalytic degradation efficiency and antibacterial potential, suggesting promising applications in water treatment and biomedicine.

Eco-Friendly Development of Leucas aspera-Derived MoO₃ Nanoparticles: Corrosion Studies and Multifunctional Applications in Medicine, Agriculture, and Industry
Applied Physics A, January 2025
DOI: 10.1007/s00339-024-08199-8

A pioneering work in synthesizing molybdenum trioxide nanoparticles using Leucas aspera plant extracts. The study investigates corrosion inhibition properties and explores diverse real-world applications, including in antimicrobial coatings, fertilizers, and industrial components.

Corrosion Mitigation of Mild Steel by Dimethylol Propionic Acid: Experimental and Theoretical Insights with In Vitro Cytotoxicity Testing on L929 Cells
Canadian Metallurgical Quarterly, 2024
This paper bridges corrosion science and biocompatibility by evaluating dimethylol propionic acid as an effective corrosion inhibitor. Theoretical modeling, surface characterization, and cytotoxicity assays validate its potential for eco-friendly and biomedical corrosion protection.

NanoGuard: Antibacterial Marvels of Strontium Titanate—Synthesis, Characterization, and Multifunctional Insights
Inorganic Chemistry Communications, 2024
This study explores the synthesis of SrTiO₃ nanoparticles and their multifunctional attributes, particularly antimicrobial properties. It highlights the potential of strontium titanate in creating advanced materials for healthcare and environmental disinfection.

Strengths for the Innovative Researcher Award

1. Pioneering Green Nanotechnology
Dr. Mahadeva Swamy M has consistently demonstrated innovation in the field of green chemistry by developing eco-friendly synthesis methods for nanomaterials using plant extracts and agricultural waste. His approach not only minimizes environmental impact but also leverages renewable resources, aligning with global sustainability goals. His work in producing bio-derived nanoparticles for diverse applications—from water purification to biomedical uses—highlights a transformative shift toward greener technologies.

2. Interdisciplinary Research Integration
A hallmark of Dr. Swamy’s career is his ability to integrate chemistry, environmental science, materials engineering, and computational modeling. By incorporating graph theory into the analysis of adsorbent materials, he has introduced a novel, data-driven framework for understanding molecular behavior. His interdisciplinary research bridges traditional boundaries and opens new frontiers in the design of functional materials.

3. Real-World Impact and Applicability
Dr. Swamy’s innovations are rooted in practical applications with societal impact. From corrosion inhibitors that are both effective and biocompatible, to affordable adsorbents derived from invasive weeds, his research consistently addresses critical issues in water treatment, agriculture, and public health. This real-world relevance has been validated through patents, publications, and industry-aligned projects.

4. Research Productivity and Collaboration
With over 30 research articles in reputed journals, multiple patents, and collaborative projects with institutions across India and abroad, Dr. Swamy exemplifies research productivity. His ability to lead and contribute to diverse teams—both as a principal investigator and a co-author—underscores his collaborative spirit and commitment to advancing science through teamwork and shared knowledge.

5. Leadership in Academic Innovation
Beyond laboratory research, Dr. Swamy plays an active role in fostering academic innovation. As Startup Cell Coordinator and NAAC Criteria-3 Member at JSS College, he promotes entrepreneurship, research culture, and student-led innovation. His mentorship of postgraduate researchers and involvement in curriculum development reflect a deep dedication to nurturing future scientists and building resilient academic ecosystems.

Abhijit Saha, Chemistry, Healthcare Innovation Award

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Prof. Dr. Abhijit Saha: Professor at The Neotia University, India

Dr. Abhijit Saha, PhD, is a highly motivated and detail-oriented Research Scholar and Professor with extensive expertise in pharmaceutical chemistry, molecular biology, and drug design. Over the past 15 years, he has focused on synthesizing novel anticancer compounds and applying advanced analytical and biological techniques to evaluate their efficacy. His research integrates synthetic organic chemistry with computational drug design and in vitro/in vivo studies, aiming to develop effective therapeutics for multiple cancer types. Passionate about mentoring, he actively guides students and contributes to multidisciplinary research addressing real-world biomedical challenges.

Online Profile

Google Scholar Profile

Dr. Abhijit Saha’s research contributions have garnered a total of 11 citations across his publications, with 9 citations coming from his recent impactful works. His scholarly influence is also reflected in an h-index of 2, demonstrating the recognition of his research within the scientific community and his growing presence in the fields of pharmaceutical chemistry and drug design.

Education

Dr. Saha earned his Ph.D. in Pharmaceutical Chemistry from Biju Patnaik University of Technology, Odisha, completing his doctoral research between 2015 and 2023. His thesis focused on the design, synthesis, and biological evaluation of novel anticancer molecules targeting multiple myeloma and other cancer strains. Prior to his Ph.D., he completed his M.Pharm in Pharmaceutical Chemistry at the same university with a strong academic record, followed by a B.Pharm degree from Berhampur University, Odisha, where he graduated with first-class honors.

Research Focus

His research is centered on the development of new anticancer drug candidates through synthetic organic and medicinal chemistry. He specializes in pharmacophore-based drug design and molecular docking studies targeting cancer-related receptors, and method development and validation of pharmaceutical compounds using RP-HPLC, UV, and IR spectroscopy. He is experienced in the biological evaluation of compounds on various cancer cell lines including Sarcoma-180, Ehrlich Ascites Carcinoma, Multiple Myeloma, NSCLC, and Breast cancer. Additionally, he extracts and screens phytochemicals for their antimicrobial and anticancer properties, contributing to natural product research and drug discovery.

Experience

Dr. Saha currently serves as a Professor at The Neotia University, where he delivers lectures in pharmaceutical chemistry and analysis, guides M.Pharm dissertation projects, and provides consultancy services in HPLC, UV spectroscopy, and drug designing. Prior to this, he was a Professor and Associate Professor at the College of Pharmaceutical Sciences in Berhampur, Odisha, where he taught undergraduate and postgraduate courses in pharmaceutical and organic chemistry while supervising numerous research projects. He began his academic career as an Assistant Professor and Lecturer at the same institution, where he gained extensive experience in teaching and mentoring students.

Research Timeline & Activities

In 2025, Dr. Saha coordinated a comprehensive three-day hands-on workshop focused on HPLC and UV spectrophotometry, aimed at enhancing practical skills among researchers and students. From 2015 to 2023, his Ph.D. research involved the design, synthesis, and biological evaluation of novel anticancer agents, with a particular emphasis on apoptosis enhancement and antiangiogenic activity. He has conducted numerous molecular docking and pharmacophore modeling studies to develop multi-target tyrosine kinase inhibitors and has extracted bioactive compounds from medicinal plants to evaluate their anticancer and antimicrobial potential. Additionally, he has developed and validated analytical methods for drug stability and degradation studies using RP-HPLC and UV techniques, contributing to quality control in pharmaceuticals.

Awards & Honors

Dr. Saha’s academic excellence is reflected in his performance on the Graduate Aptitude Test in Engineering (GATE), where he secured an All India Rank of 2420 in 2006 and an 82.97 percentile in 2008. He was awarded a UGC Minor Research Project focusing on the synthesis and biological evaluation of novel glutamic acid analogs with antitumor and antiangiogenic properties. His contributions also include coordinating workshops and successfully mentoring numerous postgraduate research students, highlighting his commitment to academic leadership and professional development.

Top Noted Publication

Among Dr. Saha’s many publications, one of his most notable works is the article titled “Analogue-Based Design, Synthesis, and Antimicrobial Study of Aryl and Heteroaryl Sulfonamides as Multi-Targeted Antimicrobial Compounds,” published in the Russian Journal of Bioorganic Chemistry in 2025. This research presents innovative synthetic strategies and comprehensive biological evaluation of sulfonamide derivatives as potent antimicrobial agents, underscoring his interdisciplinary expertise in drug discovery and design.

  • A Validated Stability Indicating RP-HPLC Method for Estimation of Avapritinib in Bulk and Tablet Dosage Form
    Subrata Sen, Koushik Sarker, Avijit Ghosh, Suvasish Mishra, Abhijit Saha
    International Journal of Applied Pharmaceutics, 14(2), 95-101, 2021
    Citations: 5

  • Possible Antineoplastic Agents, Part XVI: Synthesis, in vivo Antitumor and in vitro Antiangiogenic Study of Few Glutamic Acid Analogs
    S. Sen, K. Sarker, A. Ghosh, S. Mishra, A. Saha, D. Goswami, T. Jha, J.K. Gupta
    International Journal of Pharmaceutical Sciences and Research, 10(2), 118-124, 2011
    Citations: 4

  • Analogue Based Design, Synthesis, Biological Evaluation, and Molecular Docking of Some Thalidomide Metabolites as Selective Cytotoxic and Antiangiogenic Agents Against Multiple Myeloma
    A. Saha, K. Sarker, A. Ghosh, S. Mishra, S. Sen
    Russian Journal of Bioorganic Chemistry, 48(1), 115-124, 2022
    Citations: 1

  • Identification, Biological Evaluation & Retrometabolic Drug Designing of Active Metabolites of 5-Amino-4-(3,4-Dimethoxy Phenyl Sulfonamido)-5-Oxopentanoic Acid (SM-1) As Antimultiple Myeloma and Antiangiogenic Agents
    S.S. Abhijit Saha, Koushik Sarker, Avijit Ghosh, Suvasish Mishra
    Annals of the Romanian Society for Cell Biology, 25(5), 458-469, 2021
    Citations: 1

  • Bioinformatics Approaches for the Validation of Functional Analysis of 3D Cancer Models
    Tripti Sharma, Ipsa Padhy, Abhijit Saha (co-author)
    In 3D Bioprinting in Cancer Applications, Academic Press, 2025, pp. 85-110

Strengths for the Healthcare Innovation Award

Innovative Anticancer Drug Design and Synthesis
Dr. Abhijit Saha has demonstrated exceptional expertise in the design and synthesis of novel anticancer molecules by integrating traditional synthetic organic chemistry with modern computational techniques such as molecular docking and pharmacophore modeling. His work targets multiple cancer types by developing multi-targeted inhibitors, which enhances therapeutic efficacy while potentially reducing side effects. This innovative approach contributes significantly to advancing personalized and precision medicine in oncology.

Advanced Analytical Method Development and Validation
He has developed and rigorously validated robust stability-indicating analytical methods, including RP-HPLC and UV spectrophotometry, essential for the accurate quantification of pharmaceutical compounds in bulk drugs and dosage forms. These analytical advancements ensure high standards in drug quality control, stability assessment, and regulatory compliance, thereby supporting the safe and effective delivery of medications to patients.

Interdisciplinary and Translational Research Focus
Dr. Saha’s research uniquely combines synthetic chemistry, computational biology, and experimental pharmacology to bridge the gap between laboratory research and clinical application. His translational focus on anticancer and antimicrobial drug development facilitates the transformation of basic scientific discoveries into viable therapeutic agents, addressing critical healthcare challenges and improving patient outcomes.

Leadership in Capacity Building and Academic Mentorship
Beyond his research contributions, Dr. Saha is committed to fostering scientific talent and innovation through the organization of hands-on workshops on HPLC, UV spectroscopy, and drug design techniques. His active mentorship of graduate and postgraduate students encourages the development of practical skills and innovative thinking, preparing a skilled workforce equipped to tackle future healthcare problems.

Significant Scholarly Impact and Collaborative Innovation
With numerous peer-reviewed publications and consistent citation records, Dr. Saha’s work has been recognized internationally for its scientific rigor and innovation. His collaborative efforts with fellow researchers in medicinal chemistry and bioinformatics have led to multidisciplinary projects that enhance the discovery and development of novel therapeutic agents, reinforcing his role as a leader in healthcare innovation.

Vijay Bagul, Chemistry, Best Researcher Award

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Dr. Vijay Bagul: Senior General Manager at Medley Pharmaceuticals Limited, India

Title/Designation: Dr. Vijay Bagul
Current Role/Designation: Senior General Manager
Organization/Institution: Medley Pharmaceuticals Limited
Country: India
Subject Track: Chemistry
Key Areas of Expertise: Senior Professional in Analytical Research & Development (Formulation – Solid Dosage, Liquid, Ophthalmic & Suspension Forms)
Award Category: Best Researcher Award
Submitted: October 1, 2025

 

Mr. Vijay Arjun Bagul is a senior pharmaceutical industry professional with over 23 years of hands-on and strategic leadership experience in Analytical Research and Development (AR&D). He specializes in the development, validation, and regulatory compliance of analytical methods for a wide range of dosage forms including solid oral, liquid, ophthalmic, and suspension formulations. Currently serving as Senior General Manager and Head of ADL at Medley Pharmaceuticals Ltd., he leads cross-functional teams supporting US, UK, EU, Russia, and domestic regulatory markets. Known for his deep technical expertise, regulatory insight, and leadership capabilities, Mr. Bagul has played a critical role in numerous ANDA filings and successful inspections by agencies such as USFDA and WHO. He is also actively engaged in mentoring, scientific training, and operational excellence in a regulated R&D environment.

Online Profiles

Education

Mr. Bagul holds a Master of Science (M.Sc.) degree in Inorganic Chemistry from the University of Mumbai, which laid the foundation for his career in pharmaceutical analysis. Currently, he is pursuing his Ph.D. in Science at the Institute of Science, Dr. Homi Bhabha State University, Mumbai, with a research focus on stability-indicating methods and impurity profiling. His undergraduate studies in Chemistry were also completed at the University of Mumbai. He has a strong academic background with consistent focus on applied analytical chemistry and pharmaceutical sciences, which has greatly enriched his industry contributions and research publications.

Research Focus

His primary research areas include analytical method development and validation, stability testing, dissolution studies, degradation product profiling, and reverse engineering of reference listed drugs (RLDs). He is particularly focused on advanced chromatographic techniques like HPLC, GC, LC-MS/MS, and stability-indicating method development for complex formulations. In recent years, he has emphasized regulatory-oriented research in genotoxic impurities, nitrosamine detection, and green chemistry approaches. His work bridges academic rigor with practical pharmaceutical application, ensuring regulatory compliance while advancing scientific understanding.

Experience

Mr. Bagul’s career spans over two decades across leading pharmaceutical companies including Wockhardt Ltd., Torrent Pharmaceuticals, Alembic Pharmaceuticals, Ajanta Pharma, and currently, Medley Pharmaceuticals Ltd. Since 2018, he has been serving as the Head of Analytical Development Laboratory (ADL), overseeing a team of more than 150 scientists. He has successfully managed numerous regulatory submissions and technology transfer projects for US, UK, Europe, Russia, and ROW markets. His experience includes budgeting, CAPEX planning, vendor qualification, method troubleshooting, and regulatory inspections. His collaborative leadership style and scientific depth have positioned him as a key figure in India’s formulation AR&D landscape.

Research Timeline & Activities

Mr. Bagul’s research journey began in the early 2000s with his first publication in 2003. Over the past two decades, he has authored and co-authored multiple peer-reviewed articles, contributing to innovations in HPLC, UV spectroscopy, and impurity analysis. His research activities intensified from 2021 onwards with a surge in collaborative works on stability-indicating methods, simultaneous drug estimation, and LC-MS/MS methodologies. He actively engages in institutional partnerships, advisory roles, viva-voce examinations, and IQAC committees. His participation in academic-industry collaborations ensures that his research remains cutting-edge, relevant, and aligned with global regulatory expectations.

Awards & Honors

  • Appointed as Member of Internal Quality Assurance Cell (IQAC) at Thakur College of Science and Commerce (Autonomous) from Academic Year 2022–2023 as a Nominee from Industry.

  • Appointed as Research Advisory Board Member at H.K. College of Pharmacy, Mumbai (2018–2020).

  • Invited as an External Expert for Viva-Voce and Interactive Guest Talks at leading pharmaceutical education institutes like NMIMS (Shirpur Campus), H.R. Patel Institute, and C.U. Shah College of Pharmacy, Mumbai.
    These roles highlight his recognition as an industry-academic interface, valued for his deep expertise and ability to guide young researchers and students in formulation science and regulatory research.

Top Noted Publication

Among his many contributions to scientific literature, one of Mr. Bagul’s top-cited works is the LC-MS/MS Method for Identification & Quantification of Varenicline Nitroso Impurities using the QTRAP 4500 Mass Detector. This paper, published in the International Journal of Pharmaceutical Sciences and Nanotechnology (IJPSN) in 2025, addresses a critical regulatory concern related to nitrosamine impurities in pharmaceutical products. The work is a benchmark in applying high-end instrumentation for impurity profiling and serves as a valuable reference for regulatory submissions and analytical laboratories.
DOI: https://doi.org/10.37285/ijpsn.2025.18.2.7

One of Mr. Vijay A. Bagul’s most recent and noteworthy publications is titled “A Suitable Chromatographic Method for Simultaneous Estimation of Brimonidine and Brinzolamide in Glaucoma Treated Dosage Form: Influence of its Greenness with Use of Green Metric Tools,” published in the Oriental Journal of Chemistry on June 26, 2025. This study focuses on the development of an eco-friendly, robust RP-HPLC method for the simultaneous estimation of two ophthalmic drugs—Brimonidine and Brinzolamide. The novelty of the work lies in its integration of green analytical chemistry principles, evaluated using multiple green metric tools, ensuring sustainability without compromising method performance. This contribution reflects a growing commitment to environmentally conscious analytical practices.
DOI: 10.13005/ojc/410304

Contributors: Harmeet Kaur Kohli, Satish K. Ghumare, Deepa D. Parab, Vijay A. Bagul

Anand Radheshyam Tiwari, Chemistry, Best Researcher Award

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Dr. Anand Radheshyam Tiwari: Research Scholar at Institute of science, Mumbai, India

Anand Radheshyam Tiwari is an accomplished Assistant Manager and Analytical Chemist with over 11 years of rich experience in pharmaceutical research and development. His expertise spans analytical method development, stability studies, advanced instrumentation, and regulatory compliance, with a strong commitment to upholding data integrity. Anand combines industry knowledge with academic rigor, having authored 14 peer-reviewed research papers and filed a patent on innovative analytical techniques. He is also passionate about mentoring junior scientists and contributing to the growth of research teams.

Online Profiles

Scopus Profile

Education

Anand’s academic foundation includes a Master of Science degree in Analytical Chemistry from Mithibai College, Mumbai University, where he graduated with first-class honors. He also holds a Bachelor of Science degree in Chemistry from TCSC, Mumbai University. Currently, Anand is pursuing a Ph.D. in Chemistry at The Institute of Science, Mumbai, where he has submitted his thesis, focusing on innovative analytical methodologies tailored for pharmaceutical applications. His educational background equips him with a strong theoretical and practical understanding of chemistry.

Research Focus

Anand’s research concentrates on the development and validation of robust analytical methods for pharmaceutical compounds, particularly related substances, assay, and dissolution testing. He has a special interest in stability-indicating techniques and forced degradation studies, ensuring drug safety and efficacy. A strong advocate of sustainable science, Anand incorporates green analytical chemistry principles, using tools like AES, NEMI, GAPI, and AGREE to design environmentally friendly and efficient analytical methods. His research also emphasizes compliance with global regulatory guidelines, including ICH Q2R2.

Experience

Anand Radheshyam Tiwari 14+ yrs of experience of teaching chemistry for 11 & 12 in different Tutorials including Mahesh tutorial and Allen mumbai. Anand has built a robust career in pharmaceutical R&D across multiple reputed companies, including Medley Pharmaceuticals, Ajanta Pharma Limited, and IPCA Pvt. Ltd. His experience covers US and UK pharmaceutical markets, providing him with comprehensive exposure to international regulatory standards. As an Assistant Manager at Medley Pharmaceuticals, he leads method development projects, performs instrument qualification, oversees stability studies, and mentors junior scientists. His ability to handle analytical troubleshooting and data review has been instrumental in maintaining high-quality standards in his projects.

Research Timeline & Activities

Since 2014, Anand has actively engaged in pharmaceutical analytical research, progressing from a junior research associate to an assistant manager. Over this period, he has developed and validated numerous analytical methods for various pharmaceutical formulations. Anand regularly presents his research findings at national and international conferences, including ENHPT, ICAIR, and other multidisciplinary platforms. His ongoing participation in such events demonstrates his commitment to continuous learning and scientific dissemination.

Awards & Honors

Anand’s dedication to research excellence has been recognized through multiple awards and honors. Notably, he secured first prize in the postgraduate category at the ENHPT national conference in 2023. He has also been awarded certificates for poster presentations and research projects at various academic festivals and scientific societies. Additionally, his patent filing with the Ministry of Science, Government of India, highlights his innovative contributions to pharmaceutical analytical science.

Top Noted Publication

Among Anand’s 14 peer-reviewed publications, his work on green analytical chemistry and stability-indicating method development stands out for its scientific impact and relevance to sustainable pharmaceutical practices. These publications have been featured in reputable journals and have contributed valuable insights into advanced analytical techniques, reinforcing his position as a thought leader in the field of pharmaceutical analysis.

Dr. Anand R. Tiwari is a researcher affiliated with The Institute of Science, Mumbai, India. He is indexed in Scopus with the ID 59946139000 and is encouraged to connect his profile with ORCID for enhanced visibility. Anand has authored multiple scientific documents, including peer-reviewed articles focused on pharmaceutical analytical methods. Notably, he published a recent article in 2025 on the LC-MS/MS method for identifying and quantifying Varenicline Nitroso impurities using QTRAP 4500 Mass Detector, featured in the International Journal of Pharmaceutical Sciences and Nanotechnology. Although his current citation count and h-index are developing, Anand collaborates actively with a network of co-authors and contributes to advancing pharmaceutical analytical science.

Tiwari, A.R., Ambadekar, S.R. & Bagul, V.A. “Sensitive and sustainable stability-indicating RP-HPLC method for simultaneous assay and impurity profiling of amitriptyline HCl: green metric, RGB model and forced degradation study”. Discov. Chem. 2, 157 (2025). https://doi.org/10.1007/s44371-025-00218-8

b)A Sustainable Chromatographic Method for Simultaneous Analysis of Fluoxetine and Olanzapine Antidepressants: Assessment of Greenness with Green Metric Tools .
Tiwari A R, Ambadekar S R, +1 author Tamhanekar J PPublished in International Journal of… 25 September 2024Environmental Science, Chemistry, Medicine
DOI:10.25258/ijpqa.15.3.36
Corpus ID: 273205469

Strengths for the Best Researcher Award

1. Extensive Industry and Academic Expertise
Dr. Anand Radheshyam Tiwari brings a unique combination of over 11 years of hands-on pharmaceutical R&D experience alongside rigorous academic research as a Ph.D. scholar. His dual exposure to industry and academia ensures that his research is both practically relevant and scientifically robust, driving innovations that bridge theory and application.

2. Significant Scientific Contributions
He has authored 14 peer-reviewed research publications and filed a patent, showcasing a consistent and impactful contribution to pharmaceutical analytical science. His work, especially in green analytical chemistry and stability-indicating methods, advances sustainable practices in drug analysis, which is critical for the pharmaceutical industry’s future.

3. Leadership and Mentorship
In his current role as Assistant Manager, Anand demonstrates strong leadership by guiding junior scientists and managing critical R&D projects. His mentoring fosters growth and excellence within his team, creating a collaborative environment that enhances research quality and productivity.

4. Commitment to Data Integrity and Regulatory Compliance
Anand’s research and professional practice prioritize data integrity and compliance with international regulatory standards such as ICH Q2R2, GMP, and GLP. This ensures that his analytical methods and findings meet stringent quality requirements, reinforcing trust and credibility in his research outputs.

5. Active Engagement with the Scientific Community
He actively disseminates his research through national and international conferences, including ENHPT and ICAIR, and collaborates with a broad network of researchers. His engagement enhances knowledge exchange, encourages interdisciplinary approaches, and keeps his research aligned with the latest scientific advancements.

Bhairav Mataghare, Chemistry, Young Researcher Award

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Mr. Bhairav Mataghare: Research Scholar, PhD, Thesis Submitted at Vellore Institute of Technology, Vellore, TN, India

Bhairav Chandroday Mataghare is a passionate and driven Ph.D. candidate in Organic Chemistry at VIT Vellore. His research primarily focuses on integrating porphyrin chemistry with ionic liquid synthesis and photocatalysis to address environmental challenges and develop value-added products. With extensive experience in synthetic chemistry, environmental remediation, and pharmaceutical applications, Bhairav is poised to make significant contributions to sustainable chemistry, particularly in the fields of green energy, drug discovery, and industrial catalysis. His work bridges the gap between theoretical chemistry and practical industrial applications, providing innovative solutions for modern-day environmental and energy issues.

Online Profiles

Google Scholar Profile

  • Citations: 83

  • h-index: 5

  • i10-index: 3

These metrics reflect Bhairav’s growing influence and visibility in the academic community, with 83 citations to his work, an h-index of 5 indicating a solid number of highly-cited papers, and an i10-index of 3 showcasing a few publications with significant academic impact. These indicators suggest that his research is well-regarded and that he is on a strong trajectory for further academic contributions.

Education

Bhairav is currently pursuing a Ph.D. in Organic Chemistry at VIT Vellore, where he focuses on advancing photocatalysis through the integration of porphyrins and ionic liquids. His doctoral research is centered on the development of metal-free, sustainable photocatalysts for environmental cleanup and energy applications. Prior to his Ph.D., Bhairav earned a Master’s degree in Organic Chemistry from Hislop College, Nagpur, with a dissertation on developing green building materials from industrial rejects. His academic foundation also includes a Bachelor’s degree in Chemistry, Botany, and Zoology, which laid the groundwork for his interdisciplinary approach to chemistry.

Research Focus

Bhairav’s research revolves around the innovative use of porphyrins combined with ionic liquids and Brønsted acids to design photocatalysts capable of sustainable environmental remediation and energy transformation. His projects include the development of photocatalysts for the degradation of pollutants such as pharmaceutical residues, as well as the enhancement of biodiesel production from waste oils. His work explores sustainable, energy-efficient processes that can be easily scaled for industrial applications, making a direct impact on both environmental health and resource management.

Experience

Bhairav has valuable industry experience as a Trainee Officer in Quality Control at Lupin Limited, where he gained expertise in pharmaceutical quality management, process optimization, and regulatory compliance. This hands-on experience was complemented by his role as a Teaching and Research Assistant at VIT Vellore, where he supported both teaching activities and cutting-edge research. At VIT, he has also contributed to various collaborative research projects, particularly those focused on developing green chemical processes and photocatalysts for environmental sustainability. His combined industry and academic experience enables him to bring a practical perspective to his research in Organic Chemistry.

Research Timeline & Activities

  • 2018-2020: Master’s dissertation focused on the sustainable development of green building materials from industrial rejects at JNARDDC, Nagpur.

  • 2021-Present: Ph.D. research at VIT Vellore, conducting synthesis and characterization of novel porphyrin-based photocatalysts and ionic liquids for photocatalytic applications. This phase includes intensive laboratory work, data analysis, and collaboration with leading researchers in the field.

  • 2021-2025: Active participation in national and international conferences, presenting innovative research findings related to photocatalysis, environmental chemistry, and sustainable development. Bhairav has consistently been invited to present his work at various symposiums, further expanding his influence within the scientific community.

Awards & Honors

Throughout his academic career, Bhairav has received several accolades, recognizing his academic excellence and research contributions. These include:

  • First Prize for his oral presentation on hydroponics at the National Student Conference (NSC-2019).

  • Best Oral Presentation at the International Analytical Science Congress 2024, where he presented his work on biodiesel production from waste cooking oil using porphyrin photocatalysts.

  • Maharashtra SET Qualification (2023) for Assistant Professor in Chemical Sciences.
    These awards highlight Bhairav’s ability to effectively communicate his research and contribute significantly to advancing knowledge in his field.

Top Noted Publication

  • “Solvent/metal-free benzimidazolium-based carboxyl-functionalized porphyrin photocatalysts for the room-temperature alkylation of amines under the irradiation of visible light”
    Authors: SU Raut, KR Balinge, SA Deshmukh, SH Barange, BC Mataghare, et al.
    Journal: Catalysis Science & Technology, 12(19), 5917-5931 (2022)
    This paper discusses the development of solvent- and metal-free photocatalysts based on porphyrins for amine alkylation under visible light, advancing green chemistry and catalysis.
    Citations: 30

  • “Construction of porphyrin-based photocatalyst comprising pyridinium ionic liquid moiety for the metal-free visible light-assisted N-arylation of amines: facile approach to…”
    Authors: BC Mataghare, PR Bhagat
    Journal: New Journal of Chemistry, 47(47), 21764-21780 (2023)
    This research introduces a novel porphyrin-based photocatalyst with a pyridinium ionic liquid moiety for N-arylation of amines, providing an efficient and metal-free pathway to generate drug intermediates.
    Citations: 14

  • “Melamine-based porphyrin photosensitizer comprising sulphonic acid moieties for efficient aerobic oxidative acetalization of furfuryl alcohol: An access to octane booster under visible light”
    Authors: SA Deshmukh, BC Mataghare, VS Patil, SU Raut, DV Bhuse, VB Khajone, et al.
    Journal: Fuel, 353, 129209 (2023)
    This publication explores a melamine-based porphyrin photosensitizer for oxidative acetalization, a sustainable method to produce octane boosters under visible light, contributing to cleaner fuels.
    Citations: 10

  • “Novel porphyrin photocatalyst intertwined with ionic liquid and sulfonic acid groups for facile photo-transesterification of used frying oil”
    Authors: BC Mataghare, VS Patil, PR Yadav, RG Maske, VD Channe, VB Khajone, et al.
    Journal: Fuel, 373, 132295 (2024)
    This paper presents a groundbreaking approach to biodiesel production using a porphyrin photocatalyst, advancing the sustainability of biofuel production by utilizing waste frying oil.
    Citations: 9

  • “Visible‐Light Aided C− H activation: Metal/Base‐Free Generation of C− C bonds using Porphyrin Photocatalyst”
    Authors: DV Bhuse, SU Raut, SA Deshmukh, KR Balinge, SH Barange, et al.
    Journal: ChemistrySelect, 7(27), e202201180 (2022)
    This research focuses on a novel porphyrin photocatalyst for metal/base-free activation of C-H bonds, enabling C-C bond formation under visible light irradiation.
    Citations: 6

Strength for the Young Researcher Award

  1. Innovative Research in Green Chemistry
    Bhairav’s research is a prime example of how cutting-edge chemistry can solve real-world environmental challenges. His work on developing solvent- and metal-free photocatalysts using porphyrins is a breakthrough in green chemistry. By utilizing visible light and sustainable processes, Bhairav’s research directly addresses the need for more eco-friendly methods in industrial catalysis and environmental remediation.

  2. Focus on Sustainability
    One of Bhairav’s core strengths is his commitment to sustainability. From developing photocatalysts for environmental cleanup to using waste oils for biodiesel production, his work has broad applications for creating more sustainable industrial processes. His research on waste-to-fuel technology has the potential to significantly reduce industrial pollution while generating clean energy.

  3. Interdisciplinary Approach to Chemistry
    Bhairav’s educational background in Chemistry, Botany, and Zoology allows him to take an interdisciplinary approach to solving problems in organic chemistry. This unique blend of knowledge is invaluable in designing innovative solutions that span across traditional boundaries, such as combining ionic liquids with porphyrins for efficient photocatalysis.

  4. Successful Transition from Academia to Industry
    With experience in both academia and industry, Bhairav has seamlessly bridged the gap between theoretical research and practical application. His work as a Trainee Officer at Lupin Limited gave him hands-on experience in quality control and process optimization, which directly complements his research. This ability to integrate academic research with real-world industry demands sets him apart as a young researcher poised to make a lasting impact.

  5. Proven Excellence in Presentation and Communication
    Bhairav’s recognition at national and international conferences further highlights his ability to communicate complex scientific concepts effectively. His oral presentations, including awards such as Best Oral Presentation at the International Analytical Science Congress 2024, showcase his capability to present his research in a compelling and accessible manner, which is crucial for advancing his academic career and sharing knowledge globally.

Hani Khalil Ismail, Chemistry, Best Innovator Award

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Asst. Prof. Hani Khalil Ismail: Lecturer and Researcher in Polymer and Industrial Chemistry at Koya University, Iraq

Dr. Hani K. Ismail is an Associate Professor at Koya University, where he leads research in industrial and polymer chemistry, focusing on advanced electrochemical applications, conductive polymers, and nanocomposites for environmental sustainability. With a PhD from the University of Leicester, his work blends innovative chemistry with practical solutions for industrial processes, such as metal deposition, water purification, and battery technology. His academic career is marked by a strong commitment to teaching and mentoring students, as well as significant contributions to scientific publications and conference presentations.

Online Profiles

Google Scholar Profile

Dr. Hani K. Ismail has demonstrated a strong and consistent academic impact, particularly in recent years. Since 2020, his research has received 953 citations, contributing to a total citation count of 971. He maintains a solid h-index of 20, indicating that at least 20 of his publications have been cited 20 times or more, reflecting both the quality and relevance of his work. Additionally, his i10-index stands at 24, with 23 of those publications achieving this benchmark since 2020 alone. These metrics underscore his sustained productivity and influence in the fields of polymer chemistry, electrochemistry, and nanomaterials.

Education

Dr. Ismail earned his PhD in Industrial and Polymers Chemistry from the University of Leicester, UK (2013–2017), where he explored novel polymer-based battery technologies using deep eutectic solvents. He holds an MSc in Polymer Chemistry from the University of Mosul, Iraq (2005–2008), where his research focused on ion-exchanger materials derived from low-density polyethylene. His undergraduate studies in Chemistry (BSc, University of Mosul, 2001–2005) laid the foundation for his expertise in industrial chemistry, physical chemistry, and materials science.

Research Focus

Dr. Ismail’s research primarily revolves around the development of conductive polymers and nanocomposites for use in electrochemical applications, including supercapacitors, electrochemical sensors, and water purification systems. His work with deep eutectic solvents (DES) aims to enhance battery chemistries and electroplating processes while exploring sustainable and eco-friendly alternatives for industrial desulfurization. His research addresses critical issues such as heavy metal removal from contaminated water, and he is particularly interested in the interaction between polymers and nanomaterials to create multifunctional composites for environmental and energy-related applications.

Experience

Dr. Ismail’s academic career at Koya University began in 2009, where he initially served as an Assistant Lecturer before progressing to Associate Professor in 2022. He has taught a variety of courses across different levels, including Industrial Chemistry, Polymers Chemistry, Electrochemistry, and Research Methodology, at both undergraduate and postgraduate levels. In addition to teaching, Dr. Ismail has actively supervised graduate and doctoral students, mentoring them through complex research topics in polymer chemistry and electrochemical applications. His interdisciplinary teaching approach integrates practical laboratory experiences with theoretical knowledge, fostering a rich learning environment.

Research Timeline & Activities

Dr. Ismail’s research journey began with his PhD studies at the University of Leicester (2012-2017), focusing on electrically conducting polymers and their use in energy storage devices. Upon returning to Koya University, he expanded his research into nanomaterial-based composites, aiming to improve electrochemical sensors and water treatment technologies. Over the years, he has actively published more than 20 high-impact papers on topics such as electrochemical deposition, polymer composite materials, and wastewater treatment. His research also involves extensive collaboration with international scientists, participating in conferences and delivering talks at events in the UK, Europe, and the Middle East. In addition to lab-based experiments, Dr. Ismail is heavily involved in mentoring graduate students and guiding their research projects, contributing to the next generation of chemists.

Awards & Honors

Dr. Ismail has received several accolades for his outstanding contributions to polymer chemistry and electrochemical research. His work has been recognized in various scientific journals, and he has been awarded grants to support his research in energy storage technologies and environmental remediation. Dr. Ismail has been invited to review papers for journals with high impact factors, such as Elsevier, Springer, and Wiley, further establishing his reputation as an expert in his field. His dedication to both academic teaching and research has also earned him recognition in the broader scientific community, including invitations to participate in international research collaborations.

Top Noted Publication

One of Dr. Ismail’s top publications is in the Journal of Electroanalytical Chemistry (2023), titled “Electrochemical sensor based on polypyrrole/triiron tetraoxide (PPY/Fe3O4) nanocomposite for voltammetric determination of procaine hydrochloride in pharmaceutical formulations.” This groundbreaking paper presents a novel electrochemical sensor developed using a polypyrrole-based composite, offering enhanced sensitivity and selectivity for pharmaceutical analysis. The research not only showcases Dr. Ismail’s expertise in nanocomposite materials but also underscores his contribution to analytical chemistry and the pharmaceutical industry. This publication highlights his innovative approach to tackling real-world challenges using advanced electrochemical techniques.

  • A nanocomposite based on polyaniline, nickel and manganese oxides for dye removal from aqueous solutions

    • LI Abd Ali, HK Ismail, HF Alesary, HY Aboul-Enein

    • Journal: International Journal of Environmental Science and Technology

    • Citations: 73

    • Year: 2021

    • Focus: Dye adsorption using advanced nanocomposites.

  • Effects of dopant ions on the properties of polyaniline conducting polymer

    • HF Alesary, HK Ismail, AF Khudhair, MQ Mohammed

    • Journal: Oriental Journal of Chemistry

    • Citations: 73

    • Year: 2018

    • Focus: Impact of dopant ions on electrical and structural properties of polyaniline.

  • Rapid removal of anionic organic dye from contaminated water using a poly(3-aminobenzoic acid/graphene oxide/cobalt ferrite) nanocomposite low-cost adsorbent via adsorption techniques

    • BAM Babakir, LI Abd Ali, HK Ismail

    • Journal: Arabian Journal of Chemistry

    • Citations: 65

    • Year: 2022

    • Focus: Low-cost adsorbents for wastewater treatment.

  • Voltammetric Determination of Hg²⁺, Zn²⁺, and Pb²⁺ Ions Using a PEDOT/NTA-Modified Electrode

    • JMS Alshawi, MQ Mohammed, HF Alesary, HK Ismail, S Barton

    • Journal: ACS Omega

    • Citations: 60

    • Year: 2022

    • Focus: Electrochemical detection of heavy metals.

  • Use of a Schiff base-modified conducting polymer electrode for electrochemical assay of Cd(II) and Pb(II) ions by square wave voltammetry

    • MQ Mohammed, HK Ismail, HF Alesary, S Barton

    • Journal: Chemical Papers

    • Citations: 51

    • Year: 2022

    • Focus: Heavy metal ion detection using functionalized conducting polymers.

Strength for the Best Innovator Award

1. Pioneering Work in Conductive Polymers and Nanocomposites

Dr. Ismail has led groundbreaking research in developing conductive polymers and multifunctional nanocomposites, particularly for environmental and electrochemical applications. His work has significantly advanced the understanding of polymer-based materials for use in supercapacitors, sensors, and water purification technologies. His innovation in combining deep eutectic solvents (DES) with polymers introduces novel green chemistry approaches, placing his work at the cutting edge of sustainable materials science.

2. Real-World Impact in Environmental Remediation

Through the development of low-cost, high-efficiency adsorbent materials, Dr. Ismail has addressed major environmental issues, including wastewater treatment and heavy metal removal. His highly cited research—such as the study on polyaniline/nickel/manganese oxide nanocomposites—demonstrates practical, scalable solutions to global water pollution, combining chemistry with environmental sustainability in a unique and impactful way.

3. Innovation in Electrochemical Sensing Technologies

Dr. Ismail has developed advanced electrochemical sensors using functionalized polymers and nanomaterials. His recent work on voltammetric detection of pharmaceutical and heavy metal ions showcases innovative sensor designs with high sensitivity and selectivity. These contributions are vital for the pharmaceutical industry and environmental monitoring, offering new pathways for rapid, accurate, and low-cost detection systems.

4. Outstanding Publication Record and Citation Impact

With 971 total citations, an h-index of 20, and 24 i10-index publications, Dr. Ismail’s scientific work has gained wide recognition in the academic community. His most cited publications have 60+ citations each, reflecting the high relevance and utility of his research. Publishing in top-tier journals like ACS Omega, Arabian Journal of Chemistry, and Electrochimica Acta, he consistently produces high-impact work that drives innovation in chemical and materials research.

5. Leadership in Research, Teaching, and International Collaboration

Beyond his research, Dr. Ismail is deeply committed to mentoring future scientists, supervising PhD and MSc students, and integrating interdisciplinary approaches into his teaching. He has collaborated with international experts from the UK and Middle East, contributing to global scientific dialogue. His leadership in both academia and research has helped shape innovative curricula and build a strong research culture at Koya University.

Durga Praveena Veera, Chemistry, Female Researcher Award

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Dr. Durga Praveena Veera: Associate Professor at Government College Autonomous, Rajahmundry, India,

Dr. Durga Praveena Veera is an accomplished academician and researcher with over 13 years of experience in teaching and scientific research. She serves as an Associate Professor of Chemistry at Government College (A), Rajamahendravaram. Her primary area of expertise is in nanotechnology, specifically the synthesis and application of eco-friendly nanomaterials for environmental remediation. Dr. Veera has made significant contributions to water purification technologies, focusing on developing green, sustainable methods to remove toxic pollutants such as fluorides, thiocyanate, organophosphates, and other hazardous substances from water. Alongside her research, she has been actively involved in organizing and delivering keynotes at international conferences, workshops, and faculty development programs. She has also mentored numerous students, guiding them through various research projects in the field of chemistry.

Online Profiles:

Since the beginning of my academic career, I have accumulated a total of 46 citations for my research. Of these, 37 citations have occurred since 2020, reflecting the growing relevance and recognition of my work in recent years. My h-index currently stands at 5, indicating that five of my publications have each been cited at least five times. Since 2020, my h-index has slightly decreased to 4, which still highlights consistent impact and relevance in my field.

Education:

  • Ph.D. in Chemistry: KL University, 2017
    Thesis: “Synthesis and Characterization of an Eco-friendly Nano Silver Complexed Chitosan Biopolymer Thin Films for Removal of Water Pollutants.” Under the guidance of Dr. K.Vijay Kumar.

  • M.Sc. in Chemistry: XYZ University, 2007
    Specialized in Environmental Chemistry and Nanomaterials.

  • B.Sc. in Chemistry: ABC College, 2005
    Graduated with honors, majoring in Chemistry.

Research Focus:

Dr. Veera’s research interests are deeply rooted in the field of environmental chemistry, particularly in the development and application of nanomaterials for sustainable environmental solutions. Her work focuses on synthesizing eco-friendly nanoparticles, such as silver, copper, and iron oxide, which are utilized in the removal of various pollutants from water, including thiocyanates, fluorides, nitrates, phosphates, and pesticides. She has pioneered the use of phytochemically synthesized nanomaterials, leveraging plant-based methods to create environmentally benign materials. Another aspect of her research involves the development of advanced sensors and catalytic materials for medical and defense applications. Her work aims to contribute to cleaner water sources and more efficient remediation strategies, aligning with global sustainability goals.

Experience:

Dr. Veera has dedicated over 13 years to teaching chemistry at Government College (A), Rajamahendravaram, where she has helped shape the academic journey of hundreds of students. Her teaching methods blend theoretical knowledge with practical application, emphasizing hands-on research and experimentation. She has led several research projects, both independently and in collaboration with national and international research bodies. Dr. Veera’s experience extends beyond teaching; she has also organized and chaired numerous national and international conferences, and served as a resource person at various workshops and faculty development programs. Her role as a research expert committee member at Dayananda Sagar University, Bangalore, further highlights her influence in the academic community.

Research Timeline & Activities:

  • 2015-2017: Doctoral research at KL University focused on the development of eco-friendly silver nanoparticles and their application in water purification, specifically targeting pollutants like thiocyanate and fluoride.

  • 2017-2023: Expanded research into other types of nanomaterials, including copper oxide, iron oxide, and biopolymer composites. Published several papers on green synthesis methods and their applications in environmental cleanup.

  • 2023-2025: Active involvement in research on Ga@ZrO2 SAG nano films and biochar pellets for industrial pollutant removal and soil health enhancement. These projects are aimed at improving sustainability and reducing environmental contaminants.

  • 2024-2025: Organizing and convening the International Conference on Biobased Environment for Sustainable Territory (ICBEST-24), a landmark event for researchers and academicians working in sustainable environmental solutions.

Awards & Honors:

  • Best Poster Presentation at the International Conference on Environmental Chemistry and Renewable Sustainable Future (ICECRSF-23, GCRJY).

  • Chairperson for the International Conference on “Environmental Challenges & Remedies for Sustainable Future” (September 2023), where she led discussions on nanomaterials for environmental remediation.

  • Resource Person at the One Week Online Faculty Development Program on “Research and Emerging Trends in Chemistry” (2025).

  • Recognized as a Reviewer for international journals like Nanotechnology for Environmental Engineering and Polyhedron, where she contributes to the peer review of cutting-edge research in the field of environmental nanoscience.

Top Noted Publications:

  • Green synthesized Fe₃O₄@CD nanocomposites using Acacia caesia leaves: In vitro biological properties and cytotoxicity assessment
    Authors: GT M. Padmaja, P. Shyamala, V. Durga Praveena
    Journal: Next Nanotechnology, 6, 100093 (2024)
    Cited by: 9

  • An innovative adsorption of thiocyanate ions in aqueous solutions by exploiting eco-ZnO nanoparticles
    Author: DVD Praveena
    Journal: Inorganic Chemistry Communications (2023)
    Cited by: 8

  • Phosphate Removal from Aqueous Solutions by A Nano-Structured Ag-Chitosan Film
    Author: DVD Praveena
    Journal: Journal of NanoScience Technology, 2(3), 134-137 (2016)
    Cited by: 8

  • A Thiocyanate Sensor Based On Ecofriendly Silver Nanoparticles Thin Film Composite
    Author: DVD Praveena
    Journal: International Journal of Innovative Research in Science Engineering and Technology (2015)
    Cited by: 8

  • Eco-Friendly Silver Nano Films for the Adsorption of Fluoride Ions Based on Light Scattering Phenomenon
    Author: DVD Praveena
    Journal: International Journal of ChemTech Research, 9(4), 288-295 (2016)
    Cited by: 5

Strength for the Female Researcher Award

1. Excellence in Environmental Nanotechnology

Dr. Durga Praveena Veera has demonstrated remarkable proficiency in the field of environmental nanotechnology, particularly in developing eco-friendly nanomaterials for water purification. Her work in synthesizing green nanoparticles from plant extracts has set a benchmark for sustainable remediation strategies. This innovation positions her as a leading female researcher in a traditionally male-dominated field, contributing to cleaner water sources and improved environmental sustainability.

2. Leadership in Academia and Research

With over 13 years of experience as an educator and researcher, Dr. Veera has served as a role model for aspiring scientists, particularly women in academia. As an Associate Professor, she has mentored numerous students, guiding them through their research projects and shaping their academic careers. Her leadership extends beyond the classroom, having organized and chaired national and international conferences, and serving as a resource person at various workshops, thus empowering both students and fellow researchers.

3. Advocacy for Sustainable Development

Dr. Veera’s research aligns closely with global sustainability goals, focusing on developing green technologies that are environmentally friendly and cost-effective. Her innovative work in creating nano-films for pollutant removal from water has a far-reaching impact on improving water quality and supporting environmental health. Her commitment to sustainability is reflected not only in her research but also in her efforts to promote eco-friendly technologies through her teaching and outreach programs.

4. International Recognition and Peer Review Contributions

Dr. Veera has earned international recognition for her contributions to environmental chemistry and nanomaterials. She has been invited as a resource person and chair at numerous conferences, establishing herself as a respected figure in her field. Additionally, her role as a reviewer for prestigious journals like Nanotechnology for Environmental Engineering and Polyhedron underscores her expertise and her influence on advancing global research in nanoscience and environmental chemistry.

5. Breaking Barriers and Empowering Women in Science

As a female researcher in a highly competitive and male-dominated scientific community, Dr. Veera serves as an inspiration to young women pursuing careers in science and technology. Her journey through academic excellence, pioneering research, and leadership roles exemplifies how women can break barriers and excel in STEM fields. By actively engaging with and mentoring female students, Dr. Veera fosters an environment where women can thrive as scientists, researchers, and innovators.

Archana Rana, Chemistry, Best Innovator Award

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Dr. Archana Rana: Assistant Professor at DELHI UNIVERSITY, India

Dr. Archana is a driven and committed researcher with a Ph.D. in Chemical Sciences from the AcSIR-National Physical Laboratory. Her research interests lie at the intersection of nanotechnology and sustainability, with a special focus on the green synthesis of metal and metal oxide nanomaterials. She has made significant contributions to the development of eco-friendly methods for producing multifunctional nanomaterials that hold promise for various biological applications, including antimicrobial and agricultural uses. Dr. Archana has authored several impactful papers and presented her research at prestigious international conferences. Her work strives to balance scientific innovation with environmental responsibility, driving the future of sustainable nanomaterials.

Online Profiles

  • Google Scholar Profile

    • Citations: 143

    • h-index: 5

    • i10-index: 5

  • These metrics reflect the growing influence of Dr. Archana’s work in the field of green synthesis nanomaterials. The citations and h-index highlight the significant academic recognition her research has garnered, particularly in nanotechnology and material science

Education

  • Ph.D. in Chemical Sciences, AcSIR-National Physical Laboratory (2018-2023): Dr. Archana’s doctoral research, funded by UGC, focused on green synthesis-based nanomaterials and their potential applications in the biological field. She developed novel nanocomposites with antimicrobial and optical properties that show promise for use in agriculture and healthcare.

  • M.Sc. in Chemistry, Thapar University (2012-2014): Her postgraduate research focused on the breaking of carbon-oxygen bonds over Schiff base complexes, exploring catalytic reactions with amines and diphenyl ethers.

  • Bachelor of Education, Maharishi Dayanand University-Rohtak (2015-2017): Dr. Archana also holds a teaching degree, reflecting her interest in education and knowledge dissemination.

  • B.Sc. in Chemistry (Hons.), Delhi University- A.R.S.D. (2009-2012): Her undergraduate studies laid the foundation for her deep understanding of chemical sciences, which she later applied to her advanced research in nanotechnology.

Research Focus

Dr. Archana’s research centers on the sustainable synthesis of nanomaterials using green chemistry principles. She focuses on developing metal and metal oxide nanoparticles using plant extracts, waste materials, and other natural resources, thus minimizing the environmental impact typically associated with traditional chemical synthesis methods. These green-synthesized nanomaterials are characterized by unique properties, including antimicrobial, antioxidant, and nonlinear optical behaviors, which have applications in various industries. In particular, her work in the field of agricultural sustainability and healthcare aims to promote eco-friendly solutions while addressing global challenges such as antimicrobial resistance and environmental pollution.

Experience

Dr. Archana is currently serving as a Guest Faculty at Acharya Narendra Dev College, Delhi University, where she teaches undergraduate chemistry students. Since 2025, she has been sharing her extensive knowledge of nanotechnology and materials science with future scientists. Her academic journey began with her doctoral research at AcSIR-National Physical Laboratory, where she was awarded the UGC Research Fellowship (JRF & SRF). This role allowed her to gain hands-on experience in the synthesis and characterization of novel nanomaterials. Additionally, Dr. Archana has collaborated with several research teams to publish high-impact papers and contribute to the advancement of green chemistry and nanoscience.

Research Timeline & Activities

  • 2018-2023: Dr. Archana pursued her Ph.D. in Chemical Sciences at AcSIR-NPL, with her research focused on developing sustainable and green nanomaterials for biological applications. She was involved in every stage of the research process, from nanoparticle synthesis to their biological testing, and contributed extensively to publications in international journals.

  • 2023-Present: She continues her academic career as a Guest Faculty at Acharya Narendra Dev College, while maintaining her research momentum. Her work includes further exploration into nanomaterials for sustainable agriculture and healthcare.

  • Dr. Archana has actively participated in numerous conferences and workshops in the field, presenting her research on topics like antimicrobial nanomaterials and plant-mediated synthesis techniques. She has been invited as a speaker at various national and international events, sharing her findings on the safe and effective use of nanomaterials in real-world applications.

Awards & Honors

Dr. Archana has received multiple accolades throughout her academic career. Some of her key honors include:

  • UGC Funded Research Fellowship (JRF & SRF) for her Ph.D. research, which allowed her to explore the synthesis of metal oxide nanoparticles for biological and agricultural uses.

  • Invited Speaker at International Conferences: Dr. Archana was invited to speak at the GI-YSRI-2023 in New Delhi and APA NANOFORUM-2022, where she shared her groundbreaking research on nanomaterials fabricated using plant extracts for antimicrobial applications.

  • Multiple First-Author Publications: Dr. Archana’s research has been regularly published in top-tier journals such as Materials Advances, Sustainable Food Technology, and RSC Advances, underlining her influence in the field of sustainable nanomaterials.

Top Noted Publications

  • “Recent Advancements in Plant- and Microbe-Mediated Synthesis of Metal and Metal Oxide Nanomaterials and Their Emerging Antimicrobial Applications”, ACS Applied Nano Materials (2023), 6 (10), 8106-8134.
    This comprehensive review explores the most recent advancements in the green synthesis of metal and metal oxide nanomaterials using plant and microbe sources. It emphasizes their potential as antimicrobial agents, highlighting their growing importance in combating pathogens in medical and agricultural applications. The paper also discusses innovative methods of synthesis that are both environmentally friendly and scalable for industrial use.
    Co-authors: S. Pathak, D.K. Lim, S.K. Kim, R. Srivastava, S.N. Sharma, R. Verma.

  • “Silver Oxide Nanoparticles Synthesized by Green Method from Artocarpus Hetrophyllus for Antibacterial and Antimicrobial Applications”, Materials Today: Proceedings (2020), 28, 332-336.
    This publication delves into the synthesis of silver oxide nanoparticles via a green method, using Artocarpus Hetrophyllus (jackfruit) as a precursor. The study investigates their antibacterial and antimicrobial properties, demonstrating their effectiveness as potential candidates for use in medical and environmental settings.
    Co-authors: S.N. Sharma, R. Srivastava.

  • “An Investigation of Antimicrobial Activity for Plant Pathogens by Green-Synthesized Silver Nanoparticles Using Azadirachta indica and Mangifera indica”, Physchem (2023), 3 (1), 125-146.
    This study focuses on the antimicrobial activity of silver nanoparticles synthesized using Azadirachta indica (neem) and Mangifera indica (mango) plant extracts. The research highlights their effectiveness in combating plant pathogens, showcasing the potential of plant-based nanomaterials in sustainable agriculture.
    Co-authors: A. Kumari, A.K. Chaudhary, R. Srivastava, D. Kamil, P. Vashishtha.

  • “Multifaceted Properties of TiO₂ Nanoparticles Synthesized Using Mangifera indica and Azadirachta indica Plant Extracts: Antimicrobial, Antioxidant, and Non-Linear Optical Properties”, Materials Advances (2024), 5 (7), 2767-2784.
    This paper examines the multifaceted properties of titanium dioxide (TiO₂) nanoparticles synthesized using extracts from Mangifera indica and Azadirachta indica. It provides an in-depth analysis of their antimicrobial, antioxidant, and nonlinear optical properties, and their potential applications in agriculture, healthcare, and nanomedicine.
    Co-authors: S. Pathak, K. Kumar, A. Kumari, S. Chopra, M. Kumar, D. Kamil.

  • “Ultrafast Transient Absorption Spectroscopic (UFTAS) and Antibacterial Efficacy Studies of Phytofabricated Silver Nanoparticles Using Ocimum Sanctum Leaf Extract”, Inorganic Chemistry Communications (2022), 110233.
    This study presents an ultrafast transient absorption spectroscopic (UFTAS) analysis of silver nanoparticles synthesized using Ocimum sanctum (holy basil) leaf extract. The research demonstrates the potential of these nanoparticles in combating bacterial infections, with a particular focus on their kinetic properties and antimicrobial effectiveness.
    Co-authors: A.K. Chaudhary, S. Saini, R. Srivastava, M. Kumar, S.N. Sharma.

strengths for the Best Innovator Award

1. Pioneering Green Synthesis of Nanomaterials

Dr. Archana’s innovative approach to green synthesis of nanomaterials sets her apart in the field of nanotechnology. By utilizing plant extracts and waste materials, she has developed eco-friendly methods that not only reduce the environmental impact but also provide cost-effective, scalable solutions for nanomaterial production. Her work on metal and metal oxide nanoparticles through green synthesis has revolutionized the development of nanomaterials with multifunctional properties such as antimicrobial, antioxidant, and nonlinear optical behaviors, opening new possibilities for their application in agriculture and healthcare.

2. Bridging Nanotechnology and Sustainability

Dr. Archana’s research stands out for its dedication to sustainability. She balances the advancement of cutting-edge nanomaterials with a strong commitment to environmental responsibility. Her pioneering work on sustainable nanomaterials addresses pressing global issues like antimicrobial resistance and pollution, by designing solutions that not only work in various industrial sectors but also align with the green chemistry movement, proving that innovation and environmentalism can go hand-in-hand.

3. Innovative Applications in Healthcare and Agriculture

One of the strongest facets of Dr. Archana’s work lies in her ability to translate complex nanomaterials into practical, real-world solutions. Her research on the development of antimicrobial nanomaterials and their application in agriculture to combat plant pathogens represents a novel approach to sustainable farming. Likewise, her focus on healthcare—particularly antimicrobial nanoparticles for use in medical settings—demonstrates her ability to harness the potential of nanotechnology to improve human health, all while minimizing environmental harm.

4. Groundbreaking Contributions to Scientific Literature

Dr. Archana has consistently contributed high-impact publications that shape the future of nanotechnology and green chemistry. With multiple papers in renowned journals like ACS Applied Nano Materials and Materials Advances, her research has influenced the direction of future studies in the sustainable synthesis of nanomaterials. Her work is cited by a growing number of researchers, and her publications have become a critical resource for anyone exploring the biological applications of nanomaterials.

5. Educational Leadership and Mentorship

In addition to her scientific accomplishments, Dr. Archana’s role as a Guest Faculty at Acharya Narendra Dev College demonstrates her commitment to knowledge dissemination. As a mentor and educator, she is shaping the next generation of scientists in nanotechnology and material science. Her passion for teaching, coupled with her ability to simplify complex concepts, reflects her holistic approach to both research and education, ensuring her innovations will have lasting impacts for years to come.

Timothy Oladiran Ajiboye, Chemistry, Best Innovator Award

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Dr. Timothy Oladiran Ajiboye: Researcher at University of the Free State, South Africa

Dr. Timothy Oladiran Ajiboye is a passionate and prolific researcher in the field of environmental chemistry, with strong expertise in nanotechnology, water remediation, and material science. He obtained his PhD in Chemistry from North-West University, South Africa, focusing on the development of advanced photocatalysts for removing heavy metal ions and organic pollutants from water. His academic and research journey spans over 15 years and includes teaching, supervision, project evaluation, and scholarly publishing. Dr. Ajiboye has authored and co-authored over 40 peer-reviewed journal articles and book chapters in internationally recognized journals and publishers. His professional career has included roles in Nigeria and South Africa, where he contributed to sustainable solutions in environmental pollution, public health, and advanced functional materials.

Online Profiles

ORCID Profile

Education

Dr. Ajiboye’s educational background spans top institutions in Nigeria and South Africa. He earned a PhD in Chemistry from North-West University (2022), where he specialized in nanomaterials for water purification. His MSc in Environmental Chemistry and Pollution Control was obtained from the University of Ibadan in 2014, with a thesis on e-waste and heavy metal contamination. He holds a B.Tech in Pure and Applied Chemistry (Second Class Upper) from Ladoke Akintola University of Technology (2010), where he began foundational research in adsorption science. His early education was completed in Ogbomoso, Nigeria, where he distinguished himself academically through secondary and primary levels, earning several local scholarships and academic leadership roles.

Research Focus

Dr. Ajiboye’s research is deeply interdisciplinary, focusing on environmental nanotechnology, water treatment, green chemistry, and materials science. He designs and synthesizes photocatalytic materials such as functionalized g-C₃N₄, metal sulfides, ceramic-polymer composites, and carbon-based adsorbents for the removal of pharmaceuticals, dyes, and heavy metals from aqueous environments. His recent work expands into the biomedical application of nanoparticles and eco-friendly synthesis routes. A major part of his research integrates advanced characterization tools (TGA, NMR, SEM, UV-Vis, etc.), and his goal is to create cost-effective, scalable technologies for real-world environmental problems. He is especially passionate about sustainable development and bridging science with community impact.

Experience

With over a decade of experience in academic, research, and teaching environments, Dr. Ajiboye has served in multiple capacities across institutions. He is currently a Postdoctoral Research Fellow at the University of the Free State and formerly at Nelson Mandela University, South Africa. He also holds the title of Extraordinary Senior Lecturer at NWU. Between 2015 and 2019, he lectured Cambridge Advanced Level Chemistry in Nigeria and served as Head of Science Department at multiple institutions. He has facilitated writing workshops, served as a Teaching Assistant, and contributed to curriculum development. His professional trajectory includes project supervision, thesis examination, academic mentorship, and participation in national science fairs and symposia.

Research Timeline & Activities

Dr. Ajiboye’s research journey began in 2009 with industrial training in quality control, followed by an NYSC community project in 2011, and an MSc research on e-waste in 2014. From 2020 onwards, his research output surged, especially during his PhD and subsequent postdoctoral tenures. Between 2021 and 2025, he has participated in major international conferences, hosted academic writing retreats, presented posters at global chemistry forums, and published more than 30 articles in just four years. He has supervised Honours and Master’s students, examined dissertations, served on project committees, and participated in scientific judging panels. He also plays active roles in capacity-building workshops across South Africa and beyond.

Awards & Honors

Dr. Ajiboye has received several awards and recognitions throughout his academic and leadership journey. These include bursaries from NWU and the Faculty of Natural and Agricultural Sciences (FNAS), a scholarship from the Oyo State Government, and a Pivotal Club Scholarship. He is a Fellow of the Young African Leadership Initiative (YALI), a program sponsored by former U.S. President Barack Obama. He earned commendation from the Benue State NYSC for outstanding personal development projects. Notably, he was second runner-up in the Faculty of Science’s 3-Minute Thesis competition in 2021 and in the 2022 Science Slam Competition organized by BALEWARE and NWU. These honors reflect his dedication to research excellence, community impact, and academic leadership.

Top Noted Publication

Among Dr. Ajiboye’s many high-impact publications, a standout work is his 2024 article in Chemical Papers titled “Indium (III) complexes: application as organic catalyst, precursor for chalcogenides nanoparticles and starting materials in the industry” (DOI: 10.1007/s11696-024-03411-8). This paper comprehensively explores the industrial utility of indium complexes in catalysis and nanotechnology. It has attracted significant attention for its novel synthesis approach and multidisciplinary relevance across materials chemistry, green synthesis, and industrial applications. The publication not only demonstrates Dr. Ajiboye’s expertise in inorganic-organometallic chemistry but also exemplifies the global impact and citation visibility of his work.

  1. Development of a semiconducting supramolecular copper(II)–metallogel for antimicrobial and microelectronic device applications
    RSC Advances, 2025
    DOI: 10.1039/D5RA01535A
    → Highlights: Dual-functional material with potential in electronics and biomedicine.

  2. Exploring the efficient antimicrobial applications of a novel supramolecular Hg(II)-metallogel derived from succinic acid acting as a low molecular weight gelator
    RSC Advances, 2025
    DOI: 10.1039/D4RA08575B
    → Highlights: Focus on low molecular weight gelators with antimicrobial activity.

  3. Investigating the potent antimicrobial properties of a supramolecular Zn(II)-metallogel formed from an isophthalic acid-based low molecular weight gelator
    RSC Advances, 2025
    DOI: 10.1039/D5RA03663A
    → Highlights: Antibacterial performance and soft material engineering.

  4. Investigating the potential of a self-healing semiconducting supramolecular Mg(II)-metallohydrogel in non-volatile memory design and its therapeutic properties towards bacteria-infected wound healing
    Materials Advances, 2025
    DOI: 10.1039/D4MA01238K
    → Highlights: Combines electronics, soft matter, and medical applications.

  5. Recent strategies for controlling the white mould fungal pathogen (Sclerotinia sclerotiorum) using gene silencing, botanical fungicides and nanomaterials
    Sustainable Food Technology, 2025
    DOI: 10.1039/D4FB00348A
    → Highlights: Interdisciplinary approach to sustainable crop protection.

Strengths for the Best Innovator Award

  1. Innovative Development of Dual-Functional Metallogels
    Dr. Ajiboye has pioneered the design and synthesis of supramolecular metallogels that uniquely combine antimicrobial properties with semiconducting behavior. These materials have transformative potential for both healthcare—through infection control—and advanced electronics, such as microelectronic devices and non-volatile memory. His work pushes the boundaries of soft material science by integrating multifunctionality and self-healing properties, marking a significant step forward in nanotechnology and material innovation.

  2. Advancement of Green Nanotechnologies for Water Remediation
    Through his research on eco-friendly photocatalysts and functionalized nanomaterials, Dr. Ajiboye has developed effective, scalable, and low-cost solutions for removing heavy metals, dyes, and pharmaceutical contaminants from polluted water. His work emphasizes green synthesis methods and sustainability, directly addressing critical global challenges in water security, environmental pollution, and public health. These innovations contribute to the realization of sustainable development goals by providing practical technologies for clean water access.

  3. Industrial Application of Organometallic Complexes
    Dr. Ajiboye’s work on Indium(III) complexes demonstrates innovative use of organometallic chemistry to create versatile catalysts and nanoparticle precursors. This research bridges fundamental inorganic chemistry with practical industrial applications, facilitating environmentally friendly catalytic processes and novel material production. His contributions have broad relevance to chemical manufacturing, green synthesis, and nanotechnology industries, making significant strides in linking academic research to real-world industrial challenges.

  4. Interdisciplinary Innovation in Sustainable Agriculture
    By integrating nanotechnology, gene silencing techniques, and botanical fungicides, Dr. Ajiboye has developed novel, eco-conscious approaches to managing crop diseases such as white mould caused by Sclerotinia sclerotiorum. His interdisciplinary strategy reduces reliance on harmful synthetic chemicals, promoting sustainable crop protection methods. This work enhances food security and supports environmental health, representing forward-thinking innovation at the intersection of agriculture, biotechnology, and nanoscience.

  5. Leadership in Research Capacity Building and Community Impact
    Dr. Ajiboye’s innovation extends beyond laboratory research into leadership roles in education and community development. He has actively mentored numerous postgraduate students, facilitated academic writing workshops, and contributed to curriculum development. Through these efforts, he fosters scientific capacity building and encourages the translation of cutting-edge research into locally relevant solutions. His dedication to community engagement and knowledge transfer exemplifies innovation in scientific leadership and sustainable development.

Yanjie Wu, Chemistry, Best Innovator Award

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Dr. Yanjie Wu: Special Research Assistant at Changchun Institute of Applied Chemistry, China

Title/Designation: Dr.
Name: Yanjie Wu
Current Role/Designation: Special Research Assistant
Organization/Institution Details: Changchun Institute of Applied Chemistry, Chinese Academy of Sciences
Country: China
Subject Track: Chemistry
Key Areas of Expertise: Research on Perovskite Solar Cells
Award Categories: Best Innovator Award

Dr. Wu Yanjie is a dedicated researcher specializing in advanced photovoltaic materials and device engineering, currently serving as a postdoctoral fellow and special research assistant at the Changchun Institute of Applied Chemistry, Chinese Academy of Sciences. With a strong academic foundation in physical electronics and optics, she has been engaged in solar cell research since 2015. Her work primarily focuses on the development of high-efficiency, stable, and scalable perovskite solar cells (PSCs), with research contributions spanning material innovation, interface engineering, and large-area device fabrication. Dr. Wu has published 14 SCI-indexed papers as the first or co-corresponding author in leading journals such as Advanced Energy Materials and Nano Energy, and has been the principal investigator of multiple national and provincial-level research projects. Her long-term vision is to contribute to the commercialization of next-generation solar technologies.

Online Profiles

Scopus Profile

  • Total Documents: 71

  • Total Citations: 2,321

  • Citing Documents: 1,867

  • h-index: 29

Dr. Wu Yanjie has established a significant presence in the field of perovskite solar cells and optoelectronic materials, with a robust citation record and consistent publication in high-impact journals. Her h-index of 29 reflects both the quantity and quality of her scientific output. Her publications are frequently cited by researchers across disciplines, indicating broad relevance and influence within the scientific community.

Education

Dr. Wu received her Ph.D. in Physical Electronics in 2021 from the School of Electronic Science and Engineering at Jilin University, under the supervision of Professor Song Hongwei, a National Outstanding Young Scientist and leading talent in China’s Thousand Talent Program. Prior to her doctoral studies, she obtained both her Master’s degree in Optics (2018) and Bachelor’s degree in Physics (2015) from Jilin Normal University. Throughout her academic training, Dr. Wu developed interdisciplinary expertise at the interface of physics, electronics, and materials science, laying the groundwork for her research in high-performance solar cell technology.

Research Focus

Dr. Wu’s research focuses on designing and fabricating next-generation perovskite solar cells with a specific emphasis on improving power conversion efficiency, operational stability, and spectral range. Her work integrates ultrafast spectroscopy to probe carrier dynamics, advanced interface engineering to enhance charge transport, and spectral modification techniques to extend device response into the near-infrared. She employs down-conversion rare-earth-doped quantum dots, natural organic molecules, and thermally activated delayed fluorescence (TADF) polymers as strategic materials to overcome conventional limitations in PSCs. Additionally, her research emphasizes scalable fabrication techniques, including doctor blade coating and roll-to-roll printing, to enable flexible and large-area devices suitable for industrial deployment.

Experience

Dr. Wu has accumulated over 9 years of hands-on research experience in the field of photovoltaics and materials physics. Since June 2022, she has worked as a special research assistant and postdoctoral fellow at the Changchun Institute of Applied Chemistry under Prof. Qin Chuanjiang. From 2018 to 2021, she completed her Ph.D. studies at Jilin University, where she carried out independent research and contributed significantly to national key projects. She also played an active role in multidisciplinary collaborations during her time as a graduate student and received multiple awards for academic excellence. In each position, Dr. Wu has consistently demonstrated the ability to lead projects, publish high-impact research, and innovate in both fundamental and applied aspects of solar cell development.

Research Timeline & Activities

Dr. Wu began her journey in solar cell research in 2015 during her master’s studies, initially focusing on optics and material properties. From 2018 to 2021, during her Ph.D. program at Jilin University, she expanded her expertise into carrier separation dynamics, interface physics, and hybrid organic-inorganic materials for PSCs. Her doctoral work introduced multiple material modification strategies, including natural molecule integration and metal doping, to enhance cell performance. Since joining the Changchun Institute of Applied Chemistry in 2022, she has led independent research on rare-earth-doped perovskite quantum dots and TADF conjugated polymers for tandem and flexible solar cells. Throughout her research timeline, she has participated in and led multiple national-level and provincial-level funded projects, actively contributing to cutting-edge advancements in photovoltaics.

Awards & Honors

Dr. Wu has received numerous accolades in recognition of her academic excellence and research contributions. Notably, she was named an “E-Class Talent” of Jilin Province, reflecting her recognized status as an emerging leader in scientific research. She was awarded the Outstanding Graduate of Jilin University in 2021 and received the First Prize for Academic Achievement Scholarship in the same year. Her Master’s thesis was recognized as the Outstanding Thesis of Jilin Province in 2019, and she has received multiple national and institutional scholarships, including the National Graduate Scholarship in 2017. These honors attest to her consistent performance, leadership potential, and contributions to the advancement of scientific research.

Recent Notable Publications (2024–2025)

Among her many impactful publications, one of the most distinguished is: Wu, Y.J., et al. “Toward Broad Spectral Response Inverted Perovskite Solar Cells: Insulating Quantum-Cutting Perovskite Nanophosphors and Multifunctional Ternary Organic Bulk-Heterojunction,” published in Advanced Energy Materials (2022, 12, 2200005; Impact Factor: 27.8). In this work, Dr. Wu proposed a novel hybrid architecture combining down-conversion nanophosphors and multifunctional organic layers to significantly broaden spectral response and boost solar cell efficiency. This research has attracted significant attention for its originality and technical depth, positioning her as a thought leader in the field of perovskite photovoltaics.

Improving Buried Interface Contact by Diphenylphosphine Oxide Substituent for Highly Efficient Inverted Perovskite Solar Cells
Published in: Nano Energy, 2025
Citation Count: 0 (new publication)
Summary: Introduces a novel interface engineering strategy using diphenylphosphine oxide functional groups to enhance buried interface contact, significantly improving charge extraction in inverted PSCs.

Multifunctional BODIPY-Structured n-Type Conjugated Polymer for Simultaneous Interface Energetic Modification and Defect Passivation to Boost Efficiency and Stability of Inverted Perovskite Solar Cells
Published in: Journal of Physical Chemistry Letters, 2025
Citation Count: 0 (new publication)
Summary: Develops a BODIPY-based n-type polymer with dual functionality for both interface energy alignment and defect suppression, enabling high-performance PSCs with long-term operational stability.

A Simplified Device Achieves Color-Temperature Tunable Organic Light-Emitting Diodes
Published in: IEEE Electron Device Letters, 2025
Citation Count: 1
Summary: Demonstrates a simplified OLED structure capable of tunable color temperature, providing new pathways for human-centric lighting applications.

Gas Molecule Assisted All-Inorganic Dual-Interface Passivation Strategy for High-Performance Perovskite Solar Cells
Published in: Advanced Science, 2024 (Open Access)
Citation Count: 11
Summary: Proposes an innovative gas-assisted dual-interface passivation method to boost performance and environmental stability of all-inorganic PSCs.

Perovskite Solar Cells with Extremely High 24.63% Efficiency through Design of Double Electron Transport Layers and Double Luminescent Converter Layers
Published in: Advanced Functional Materials, 2024
Citation Count: 18
Summary: Achieves a record efficiency of 24.63% in inverted PSCs by engineering multilayer ETLs and luminescent converters, setting a new benchmark in device design.

Improved Hole-Selective Contact Enables Highly Efficient and Stable FAPbBr₃ Perovskite Solar Cells and Semitransparent Modules
Published in: Advanced Materials, 2024
Citation Count: 16
Summary: Optimizes hole-selective contact layers to enhance the performance and stability of FAPbBr₃-based semitransparent PSC modules for building-integrated photovoltaics.