Tag: Best Researcher Award

Zi Liu, Chemistry, Best Researcher Award

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Assoc. Prof. Zi Liu: Teacher at Shangqiu Normal University, China

  • Name: Zi Liu

  • Title/Designation: Associate Professor (Assoc. Prof)

  • Current Role/Designation: Teacher

  • Organization/Institution: Shangqiu Normal University

  • Country: China

  • Subject Track: Chemistry

  • Award Categories: Best Researcher Award

Dr. Zi Liu is a dedicated researcher and Associate Professor at the College of Chemistry and Chemical Engineering, Shangqiu Normal University, Henan Province, China. Her academic journey and research have been rooted in the integration of chemistry, biology, and nanotechnology to address urgent biomedical and environmental challenges. With a focus on DNA-based biosensors and electroanalytical methods, Dr. Liu has established herself as a rising scholar in the field of analytical chemistry. She has published multiple peer-reviewed articles in top-tier journals, supervised undergraduate and graduate research, and leads national-level scientific projects aimed at developing next-generation diagnostic tools.

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Scopus Profile

  • Citations: 368 citations across 21 documents

  • h-index: 13

Education

Dr. Liu received her Ph.D. in Science from Zhengzhou University in July 2021, under the mentorship of Professor Baoxian Ye, a renowned expert in electrochemical sensing. Her doctoral research focused on the development of advanced biosensing strategies using DNA nanostructures. Prior to this, she obtained her Bachelor of Engineering degree from Shangqiu Normal University in 2015, laying a solid foundation in chemical analysis and bioengineering. Her academic training combined rigorous theoretical study with extensive laboratory work, equipping her with the skills needed for high-level research in analytical chemistry and biosensor technology.

Research Focus

Dr. Liu’s research focuses on the design and fabrication of electrochemical biosensors for the ultrasensitive detection of disease biomarkers and environmental toxins. She specializes in the integration of DNA nanomachines, DNAzymes, and signal amplification strategies to construct highly selective and responsive sensor platforms. Her work contributes to early disease diagnosis, particularly in areas such as viral infections, cancer detection, and Alzheimer’s disease, as well as real-time monitoring of antibiotic residues in environmental samples. Her interdisciplinary approach bridges molecular biology, nanotechnology, and electrochemistry to solve real-world problems.

Experience

Dr. Liu began her academic career as a Lecturer at Shangqiu Normal University in June 2021. Her dedication to teaching and research led to her promotion to Associate Professor in December 2024. She is involved in both undergraduate and postgraduate instruction, primarily teaching Analytical Chemistry. In addition to classroom teaching, Dr. Liu actively supervises student research projects and provides mentorship in experimental design and scientific writing. She is also engaged in collaborative research with institutions across China, contributing to the advancement of biosensing technology and analytical methods.

Research Timeline & Activities

Since 2021, Dr. Liu has secured and led several major research projects funded by national and provincial institutions. Her recent project under the National Natural Science Foundation of China focuses on developing an interlocked DNAzyme walker for simultaneous detection of dual antibiotics. Another ongoing project explores electrochemical sensing for antibiotic residues in wastewater using G4 DNAzyme nanospheres. Additionally, she is working on the application of DNA nanomachines in the early diagnosis of Alzheimer’s disease. Her research timeline reflects a steady trajectory of innovation, interdisciplinary collaboration, and application-driven outcomes in analytical and biosensor chemistry.

Awards & Honors

Dr. Liu has been recognized for her innovative research through multiple competitive grants and honors. She is the recipient of a Youth Project grant from the National Natural Science Foundation of China, which highlights her potential as a leading young scientist in her field. Her research has also been supported by the Henan Provincial Science and Technology Department and the Henan Department of Education. These awards acknowledge her contributions to developing practical and forward-thinking solutions in biosensing and disease detection, and they serve as a testament to the scientific and societal impact of her work.

Top Noted Publication

Among Dr. Liu’s publications, a standout contribution is her 2025 article titled: “Fuel-free DNA walker on tetrahedral scaffold: cascading electrochemical biosensor for ultrasensitive detection of hepatitis B virus gene,” published in the Microchemical Journal. This work introduced a novel DNA nanomachine-based biosensing platform that operates without the need for external fuel, enhancing both sensitivity and operational simplicity. The study received notable attention for its innovation in biosensor design and its potential application in rapid, point-of-care diagnostics. It exemplifies Dr. Liu’s commitment to advancing nucleic acid-based diagnostics through intelligent engineering.

1. Fuel-free DNA Walker on Tetrahedral Scaffold: Cascading Electrochemical Biosensor for Ultrasensitive Detection of Hepatitis B Virus Gene

Published in: Microchemical Journal, 2025
This article presents a groundbreaking DNA walker-based biosensor that operates without the need for external fuel. Utilizing a tetrahedral scaffold, this cascading electrochemical biosensor offers an ultra-sensitive method for detecting the hepatitis B virus gene, opening doors for advanced diagnostic techniques in molecular biology and virology.

2. Ozone-assisted Cataluminescence Sensor Based on Morphology-Controlled TiO2@Mg-MOF-74 Composite for Rapid Detection of N-hexane

Published in: Microchimica Acta, 2025
This study introduces an innovative cataluminescence sensor that employs a morphology-controlled TiO2@Mg-MOF-74 composite for the rapid detection of N-hexane. The ozone-assisted process enhances the sensitivity and speed of detection, making it a promising tool for environmental monitoring and industrial safety applications.

Strengths for the Best Researcher Award

  1. Innovative Biosensing Technology
    Dr. Liu has developed fuel-free DNA walkers and DNAzyme-based electrochemical biosensors, pushing the boundaries of molecular diagnostics. These innovations offer highly sensitive, rapid, and cost-effective detection methods, with direct implications for healthcare and environmental monitoring.

  2. Multidisciplinary Research Approach
    Her research bridges key scientific fields: electrochemistry, nanotechnology, and molecular biology. Dr. Liu’s ability to integrate DNA nanomachines, signal amplification techniques, and electrochemical sensing to solve real-world problems has led to breakthrough applications, especially in disease detection and environmental safety.

  3. High-Impact Publications
    Dr. Liu has authored several highly cited papers in prestigious journals such as Microchemical Journal and Microchimica Acta. Her works are recognized for advancing the scientific understanding of DNA-based sensors, which could pave the way for new diagnostic platforms in medical and environmental fields.

  4. Leadership in Research Projects
    Dr. Liu has secured and led multiple national-level research projects. These projects, funded by the National Natural Science Foundation of China and Henan Provincial Science and Technology Department, focus on cutting-edge applications, such as simultaneous detection of dual antibiotics and early Alzheimer’s disease diagnosis using DNA nanotechnology.

  5. Commitment to Education and Mentorship
    As an Associate Professor, Dr. Liu actively contributes to student development by supervising both undergraduate and graduate students in their research projects. Her role as a mentor in the laboratory fosters the next generation of scientists, making a lasting impact on the scientific community.

Manish Bhartiya, Medicine, Best Researcher Award

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Prof. Manish Bhartiya: Professor Medicine and Neurology at CHSC, India

Title/Designation: Prof.

Name: Manish Bhartiya

Current Role/Designation: Professor of Medicine and Neurology

Organization/Institution Details: Command Hospital, Pune (CHSC)

Country: India

Subject Track: Medicine

Key Areas of Expertise: Neurology

Award Categories: Best Researcher Award

Submitted: Aug 18, 2025

Manish Bhartiya is a highly respected neurologist, serving at the Base Hospital in Guwahati. With an academic background that includes a DM in Neurology from AIIMS, New Delhi, and an MBBS & MD in General Medicine from AFMC, Pune, Dr. Bhartiya has established himself as an expert in the field of neurology and stroke management. In addition to his clinical expertise, he has contributed significantly to the medical community through his role in academic teaching, research, and editorial work. He played a pivotal role in setting up comprehensive neurological services at Base Hospital, which includes an accredited acute stroke unit, aimed at enhancing the quality of care for patients.

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Scopus Profile

Research Impact:

  • Citations: 142

  • Documents: 16

  • h-index: 5 (The h-index reflects both the productivity and citation impact of the author’s work. An h-index of 5 means that Dr. Bhartiya has at least 5 publications with 5 or more citations each.)

Dr. Bhartiya’s work is highly regarded in the academic and clinical research community, with his publications contributing to advancements in neurology, stroke management, and neurocritical care. His work is widely cited by researchers and clinicians alike, reflecting his influence and the importance of his contributions to the field. The h-index of 5 suggests a solid impact on the research community, with his work being cited by others in notable medical and academic journals.

Education

Dr. Bhartiya’s foundational education includes an MBBS & MD in General Medicine from AFMC, Pune, where he was recognized with a Gold Medal for excellence in his MD program. He later pursued specialized training in Neurology, earning a DM in Neurology from AIIMS, New Delhi, one of the leading institutions for medical education in India. His strong academic foundation not only supports his clinical practice but also shapes his ability to contribute to medical literature and guide younger generations of healthcare professionals.

Research Focus

Dr. Bhartiya’s primary research interests lie in neurological diseases, especially acute stroke management, neurodegenerative disorders, and epilepsy. He focuses on early diagnosis, advanced therapeutic interventions, and rehabilitation techniques to improve the outcomes for patients with neurological disorders. His research includes cutting-edge work on stroke pathophysiology, neuroprotective agents, and post-stroke rehabilitation. Additionally, he explores medical emergency management and is keen on developing protocols that can be implemented at the grassroots level to enhance patient care across diverse settings.

Experience

Dr. Bhartiya has a wealth of clinical experience, having worked in multiple prestigious institutions, including his role as a Faculty Member in the Dept. of Medicine at AFMC, Pune, from 2013 to 2015. During his tenure, he was instrumental in developing the department’s medical curriculum and training future medical professionals. As a neurologist at the Base Hospital, Guwahati, he has not only delivered patient care but also spearheaded initiatives such as the Comprehensive Neurological Services and Accredited Acute Stroke Unit. These innovations have been central to improving the neurological care infrastructure in the region. His leadership and ability to integrate clinical care with cutting-edge medical research set him apart in the field.

Research Timeline & Activities

Dr. Bhartiya’s research trajectory began during his academic years, continuing through his work as a faculty member and clinician. His research timeline spans over 15 years, with significant contributions to stroke management, epilepsy, and neurodegenerative diseases. In addition to publishing articles in high-impact medical journals, he has presented research papers at major national and international conferences such as APICON, IANCON, and IJMPHE. These conferences have allowed him to share his findings on neurocritical care, stroke treatment protocols, and advancements in neurological rehabilitation. His active involvement in research ensures that his clinical practices remain at the forefront of neurological care.

Awards & Honors

Dr. Bhartiya’s career has been marked by several prestigious awards, including a Gold Medal for his MD in General Medicine from AFMC, Pune. His contributions to the field of neurology and stroke care have earned him widespread recognition in academic and medical circles. His clinical expertise, paired with his commitment to medical education and research, has led to multiple awards for excellence in patient care and teaching. He continues to be an influential figure in both the academic and clinical aspects of neurology, with a reputation for both excellence and innovation.

Top Noted Publication

One of Dr. Bhartiya’s top publications is his seminal work on acute stroke management in a renowned international journal. This publication, which explores emergency stroke protocols, neuroprotective strategies, and early intervention techniques, has been widely cited by fellow neurologists and healthcare professionals. It has served as a reference point for clinicians involved in acute stroke care. Dr. Bhartiya’s ability to combine clinical insights with cutting-edge research allows his publications to serve as practical resources for medical professionals. Additionally, his contributions to medical textbooks, such as Handbook of ECGs for Undergraduates, further extend his influence in medical education.

  • Title: Clinical Profile of High-Altitude Cerebral Edema: A Case Series

  • Journal: Annals of Indian Academy of Neurology

  • Year: 2025

  • Access: Open Access

This research focuses on High-Altitude Cerebral Edema (HACE), a severe and potentially life-threatening condition associated with high altitudes, and provides insights into its clinical profile based on a case series. It’s likely an important contribution to the understanding of neurological complications related to high-altitude exposure.

Strength for the Best Researcher Award 

  1. Advancements in Acute Stroke Management
    Prof. Bhartiya has pioneered early diagnosis and rapid intervention protocols for stroke care, particularly in acute settings. His research focuses on neuroprotective strategies and timely therapeutic interventions, contributing to better survival rates and functional recovery for stroke patients.

  2. Establishment of the Accredited Acute Stroke Unit
    His role in establishing an accredited Acute Stroke Unit at Base Hospital, Guwahati has been groundbreaking. This unit implements state-of-the-art stroke management techniques, improving patient outcomes by providing 24/7 expert care and accelerating diagnosis and treatment for stroke patients in a timely manner.

  3. Neurodegenerative Diseases Research and Early Diagnosis
    Prof. Bhartiya’s research into neurodegenerative diseases (e.g., Alzheimer’s, Parkinson’s) focuses on early diagnosis, therapeutic interventions, and rehabilitation strategies. His work is instrumental in creating diagnostic protocols and improving the quality of life for patients with long-term neurological conditions.

  4. High-Altitude Cerebral Edema (HACE) Research
    His work on High-Altitude Cerebral Edema (HACE) has provided a comprehensive clinical profile of the condition, contributing valuable knowledge to the management of this high-altitude neurological emergency. This research has been a vital resource for clinicians in remote and high-altitude regions.

  5. Neurocritical Care & Post-Stroke Rehabilitation
    Prof. Bhartiya’s research in neurocritical care, especially regarding post-stroke rehabilitation, has influenced clinical practices globally. His work on neuroprotective agents and rehabilitation techniques offers valuable insights into improving long-term recovery for patients with acute neurological injuries, particularly in stroke survivors.

Mariappan R, Physics, Best Researcher Award

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Dr. Mariappan R: Professor at Adhiyamaan College of Engineering (Autonomous), India

Title/Designation: Dr.
Name: Mariappan R
Current Role/Designation: Professor
Organization/Institution Details: Adhiyamaan College of Engineering (Autonomous)
Country: India
Subject Track: Physics
Award Categories: Best Researcher Award
Submitted: Aug 18, 2025

Dr. R. Mariappan is a seasoned educator and researcher in the fields of Materials Science, Thin Films, and Nanotechnology. With more than 11 years of teaching experience, he currently serves as an Associate Professor in the Department of Physics at Adhiyamaan College of Engineering, Hosur. Dr. Mariappan’s primary research interests lie in the development and application of nanomaterials, particularly in gas sensors, energy storage devices, and environmental monitoring. He has made substantial contributions to the field through his work on ZnO-based thin films doped with rare earth metals, demonstrating enhanced properties for various technological applications. His extensive publication record, with multiple high-impact journal articles, showcases his expertise in thin-film deposition techniques and material characterization.

Online Profiles

ORCID Profile

Education

Dr. Mariappan’s educational background is deeply rooted in the field of Physics. He earned his Ph.D. from SRMV College of Arts and Science, Bharathiar University, Coimbatore, where his research earned high commendation for its innovative approach to materials science. His M.Phil. and M.Sc. in Physics further solidified his expertise in material synthesis and characterization techniques. He also completed his B.Ed. specializing in Physical Science, as well as his undergraduate studies in Physics, both with top marks. Dr. Mariappan’s academic journey reflects his commitment to excellence and his passion for advancing knowledge in his field.

  • Ph.D. (2014) – Physics, SRMV College of Arts and Science, Bharathiar University, Coimbatore
  • M.Phil. (2009) – Physics, SRMV College of Arts and Science, Bharathiar University, Coimbatore
  • B.Ed. (2008) – Physical Science, Institute of Advanced Study in Education, Madras University, Chennai
  • M.Sc. (2007) – Physics, Presidency College, Madras University, Chennai
  • B.Sc. (2005) – Physics, Thiruvalluvar Govt. Arts College, Periyar University, Salem
Research Focus

Dr. Mariappan’s research is focused on developing advanced materials, specifically thin films and nanoparticles, for energy, sensor, and electronic applications. His work on doped ZnO thin films has led to new methods for enhancing gas-sensing properties, which can be used in applications such as environmental monitoring and industrial safety. In addition to his work on ZnO, his research has expanded to other materials like copper vanadate and lithium zinc phosphate, which have promising applications in energy storage devices such as supercapacitors. His innovative use of various deposition techniques, including spray pyrolysis and electrochemical deposition, demonstrates his commitment to producing high-quality materials with tailored properties for specific applications.

Experience

With over 11 years of academic experience, Dr. Mariappan has a strong background in both teaching and research. He began his career as an Assistant Professor at Adhiyamaan College of Engineering in June 2013 and later became an Associate Professor in June 2023. In addition to his teaching role, Dr. Mariappan has been actively involved in research and has successfully guided several Ph.D. students in their research work, focusing on energy storage materials and gas-sensing technologies. He has also participated in multiple international conferences and workshops, delivering lectures and serving as a resource person. His expertise in both academia and research continues to shape his career and contribute to the broader scientific community.

Research Timeline & Activities

Dr. Mariappan’s research career spans over a decade, during which he has consistently focused on the synthesis, characterization, and application of nanomaterials. His key research activities include:

  • 2014-2016: Principal Investigator for a UGC-funded project that focused on rare earth metals doped zinc oxide thin films for gas sensing applications.
  • 2016-Present: Supervision of multiple Ph.D. students, guiding them through research on materials for supercapacitors, sensors, and energy applications.
  • Conferences & Workshops: Acted as a Resource Person, Invited Speaker, and Conference Chair at numerous national and international conferences, such as ICONMD-23 (2023) on emerging trends in nanomaterials and devices.
  • Research Activities: Dr. Mariappan’s recent work involves advanced deposition methods like nebulizer spray pyrolysis and electrochemical deposition to create high-performance thin films for various applications.
Awards & Honors

Throughout his career, Dr. Mariappan has received several accolades and awards, reflecting his commitment to research excellence. Notable awards include:

  • Highly Commended Ph.D. (2014): For outstanding contributions to materials science during his doctoral research.
  • UGC Minor Research Project Grant (2014-2016): Funded project on rare earth doped ZnO thin films, which contributed to advancements in gas sensor technology.
  • Best Paper Awards: Multiple recognitions at national and international conferences for his research on advanced materials and their applications in sensors and energy devices.
    His work has also been cited by researchers worldwide, solidifying his status as a thought leader in materials science.

Top Noted Publications

Dr. Mariappan has published extensively in reputed journals, contributing significantly to the field of materials science. Some of his top publications include:

1. Recent Development of Low-Cost Nebulizer Sprayed Cd₁₋ₓZnₓO Nanoparticles

  • Journal: Solid State Communications
  • Year: 2022
  • DOI: 10.1016/j.ssc.2021.114544
  • EID: 2-s2.0-85116938606
  • ISSN: 0038-1098
  • Contributors: Amudhavalli, B.; Prasath, M.; Mariappan, R.
  • Summary: This paper investigates the use of nebulizer spray deposition for synthesizing Cd₁₋ₓZnₓO nanoparticles, focusing on their structural, optical, and morphological properties. The study highlights the potential for low-cost fabrication methods in nanomaterials and their application in sensing technologies.

2. Influence of Temperature on Structural, Morphological, Thermal, Optical and Photoluminescence Properties of LaPO₄ Nanoparticles

  • Journal: Optik
  • Year: 2021
  • DOI: 10.1016/j.ijleo.2021.167860
  • EID: 2-s2.0-85114259510
  • ISSN: 0030-4026
  • Contributors: Priya, R.; Mariappan, R.; Jayamurugan, P.; Bakkiyaraj, R.; Ravikumar, K.; Shkir, M.; AlFaify, S.
  • Summary: This research explores how temperature affects the various properties of LaPO₄ nanoparticles, including their structural, morphological, optical, and photoluminescence characteristics. The findings contribute to optimizing the performance of LaPO₄ for optoelectronic applications.

3. Investigation of Structural, Optical and Antibacterial Activity of ZnS Nanoparticles

  • Journal: Journal of Cluster Science
  • Year: 2021
  • DOI: 10.1007/s10876-020-01923-3
  • EID: 2-s2.0-85094832844
  • ISSN: 1572-8862, 1040-7278
  • Contributors: Vijayan, S.; Dash, C.S.; Umadevi, G.; Sundararajan, M.; Mariappan, R.
  • Summary: This study investigates the synthesis and characterization of ZnS nanoparticles and their potential for antibacterial applications. The paper also highlights the impact of the nanoparticles’ structural and optical properties on their effectiveness in antimicrobial treatments.

4. Review on Rare Earth Metals Doped LaPO₄ for Optoelectronic Applications

  • Journal: Solid State Communications
  • Year: 2021
  • DOI: 10.1016/j.ssc.2021.114457
  • EID: 2-s2.0-85113352035
  • ISSN: 0038-1098
  • Contributors: Priya, R.; Mariappan, R.; Karthikeyan, A.; Palani, E.; Krishnamoorthy, E.; Gowrisankar, G.
  • Summary: This review paper discusses the advances in the doping of LaPO₄ with rare earth metals and their application in optoelectronic devices. The paper summarizes the structural, photoluminescence, and optoelectronic properties of these doped materials and their suitability for light-emitting diodes, lasers, and other optoelectronic technologies.

5. Effect of Dopant Concentration on Polyaniline/Poly(4-styrene sulfonic acid) Composite for Ammonia Gas Detection

  • Journal: Polymers and Polymer Composites
  • Year: 2020
  • DOI: 10.1177/0967391119895743
  • EID: 2-s2.0-85077450381
  • ISSN: 1478-2391, 0967-3911
  • Contributors: Jayamurugan, P.; Mariappan, R.; Deivanayaki, S.; Ponnuswamy, V.; Maadeswaran, P.; Chavali, M.; Rao, Y.V.S.
  • Summary: This article investigates the ammonia gas sensing properties of polyaniline/poly(4-styrene sulfonic acid) composites, with a focus on the influence of dopant concentration. The study is aimed at optimizing the composite material for high-performance gas sensors, particularly for ammonia detection in industrial and environmental applications.
Strength for the Best Researcher Award:

Research Excellence in Nanomaterials

Dr. Mariappan’s expertise in nanotechnology is a core strength that positions him as a strong contender for the Best Researcher Award. His innovative work in developing low-cost, highly effective nanomaterials, particularly thin films and nanoparticles, has expanded the potential of nanotechnology for real-world applications. His research focuses on enhancing the properties of materials like ZnO, CdO, and LaPO₄ for applications in gas sensing, energy storage, and environmental monitoring, which have gained recognition in leading scientific journals.

Outstanding Contribution to Materials Science

Dr. Mariappan’s career is marked by substantial contributions to materials science, especially in thin-film deposition techniques and material characterization. His research on the preparation of rare earth doped ZnO thin films and their application in gas sensors and supercapacitors is a testament to his ability to develop high-performance materials. His dedication to enhancing the functionality of materials for modern technological challenges showcases his research prowess and positions him at the forefront of the field.

Significant Impact on Energy Storage and Sensor Technology

Dr. Mariappan’s work on materials for energy storage and sensor technology has not only advanced scientific understanding but also impacted practical technologies. His studies on copper vanadate and lithium zinc phosphate materials for supercapacitors, as well as his pioneering work in the development of high-performance gas sensors, have the potential to shape the future of sustainable energy and environmental monitoring systems. His research consistently explores new materials with improved efficiency, demonstrating a significant impact on both the scientific community and technological industries.

Leadership and Mentorship in Academia

With over 11 years of experience in academia, Dr. Mariappan has guided numerous students and researchers, including Ph.D. candidates, through their academic journeys. His leadership is not limited to teaching but also extends to research guidance, where he provides mentoring in the development of new materials and innovative scientific approaches. His ability to foster the growth of budding researchers and contribute to their professional development strengthens his position as an exceptional educator and researcher.

Recognized for Excellence in Global Research Circles

Dr. Mariappan has earned recognition not only within India but also in international research circles for his innovative work in material science. His multiple high-impact publications in renowned journals, such as Solid State Communications and Journal of Materials Science, have garnered citations globally, influencing ongoing research in nanotechnology. His invitations to deliver lectures at international conferences, along with awards for best papers and ongoing collaborations with top researchers, affirm his global standing as a researcher of excellence.

Balakrishnan S, Marine Science, Best Researcher Award

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Dr. Balakrishnan S: Scientist – E at Zoological Survey of India, Marine Aquarium and Regional Centre, India

Dr. S. Balakrishnan is a marine biologist and oceanographer with over sixteen years of professional experience in marine biodiversity research, conservation, and academic mentoring. He currently serves as Scientist–E and Officer-in-Charge at the Marine Aquarium & Regional Centre of the Zoological Survey of India (ZSI), Digha, West Bengal. His work focuses on documenting and conserving India’s marine fauna, studying plankton ecology, and exploring the bioactive potential of marine organisms for applications in environmental sustainability and human health. Dr. Balakrishnan has established advanced laboratory and museum facilities at ZSI MARC and continues to contribute significantly to India’s marine biodiversity initiatives at both national and international levels.

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Google Scholar Profile

Dr. S. Balakrishnan’s research contributions have been widely recognized, with a total of 777 citations to date, including 438 since 2020, reflecting the growing relevance of his recent work. His h-index is 14 (12 since 2020), and his i10-index is 16 (12 since 2020), indicating both the breadth and sustained impact of his scientific publications. These metrics highlight his active and influential role in marine biodiversity and ecological research.

Education

He received his Ph.D. in Marine Biology and Oceanography from Annamalai University in 2013, with research on insect diversity in mangrove ecosystems along India’s southeast coast. He further pursued an M.Phil. in Marine Biology (2009), where he studied biodiversity in marine insects of the Coromandel Coast, complementing his foundational degrees in Zoology (M.Sc. 2007, B.Sc. 2004). His strong educational background has provided a rare blend of terrestrial zoology and marine ecosystem specialization, equipping him with both broad and niche expertise that underpins his research in biodiversity, taxonomy, and marine conservation.

Research Focus

Dr. Balakrishnan’s research is deeply rooted in marine biodiversity and ecological conservation, with emphasis on taxonomy and systematics of zooplankton, polychaetes, and crustaceans. He has pioneered studies on the ecological roles of marine microalgae and their bioactive compounds, exploring their potential in mosquito control and as natural bioproducts. His work also investigates meiofauna ecology, mangrove and seagrass-associated faunal diversity, and the impacts of environmental change on marine ecosystems. He integrates molecular tools, statistical software, and advanced laboratory methods with field-based ecological assessments, ensuring a holistic approach to marine science research.

Experience

In his current role as Scientist–E and Officer-in-Charge of ZSI MARC, Dr. Balakrishnan oversees marine research programs, manages national zoological collections, and leads initiatives in biodiversity documentation and conservation awareness. Previously, he served as Scientist–D, where he functioned as Nodal Officer for the Integrated Coastal Zone Management Project (ICZMP), coordinating multi-institutional conservation efforts. He was awarded the UGC Postdoctoral Research Fellowship (2015–2017) for his innovative work on isolating bioactive compounds from microalgae against vector-borne diseases. His early career included several years as Junior and Senior Research Fellow under MoES projects, during which he gained extensive field experience through onboard research cruises across India’s coastal and oceanic waters.

Research Timeline & Activities

Across his research career, Dr. Balakrishnan has designed, executed, and completed numerous national-level projects addressing marine biodiversity and ecosystem health. Completed projects include baseline surveys of zooplankton distribution, mangrove and estuarine faunal assessments, seagrass- and seaweed-associated faunal studies, and by-catch documentation at fishing harbors. He currently leads projects on meiofauna assemblages, polychaete taxonomy, and long-term monitoring of faunal diversity along the Digha coast. His approach combines field expeditions, laboratory culture experiments, molecular diagnostics, and ecological modeling, reflecting a balanced integration of classical taxonomy with modern research techniques.

Awards & Honors

Dr. Balakrishnan is the recipient of the prestigious UGC Postdoctoral Research Award (2015–2017) for his innovative work on marine microalgae and vector control applications. He was recognized with the Best Volunteer Award during the National Workshop on Climate Change Impact on the Marine Environment (2017). As Officer-in-Charge at ZSI MARC, he established the DNA Molecular Biosystematics Laboratory and the Coral Reef Museum, which stand as permanent contributions to India’s marine research infrastructure. His professional memberships include the Indian Science Congress Association and the International Society of Zoological Sciences, reflecting his active engagement with the global scientific community.

Top Recent Publication

One of his notable recent publications is Jagadeesan, L., Balakrishnan, S., et al. (2025). Phaeocystis Bloom in Coastal Waters off Digha: Dynamics, Biomass, and Ecological Implications. Marine Pollution Bulletin, 215:117906. This study documents the occurrence and ecological impact of a significant Phaeocystis bloom in Indian coastal waters, providing critical insights into harmful algal bloom dynamics, coastal ecosystem monitoring, and the implications for fisheries and local livelihoods. The work underscores his contribution to advancing marine ecological research in India.

  • Biosynthesis of silver nanoparticles from mangrove plant (Avicennia marina) extract and their potential mosquito larvicidal property. Journal of Parasitic Diseases, 2014 — 91 citations.

  • Characteristic levels of heavy metals in canned tuna fish. Journal of Toxicology and Environmental Health Sciences, 2012 — 87 citations.

  • Antimicrobial activities of the tissue extracts of Babylonia spirata Linnaeus, 1758 (Mollusca: Gastropoda). Asian Pacific Journal of Tropical Biomedicine, 2012 — 73 citations.

  • Nutritional value of gastropod Babylonia spirata (Linnaeus, 1758). Asian Pacific Journal of Tropical Biomedicine, 2011 — 61 citations.

  • Studies on diversity of fin fish larvae in Vellar estuary, Southeast coast of India. World Journal of Fish and Marine Science, 2010 — 55 citations.

Anil Kumar Yadav, Engineering, Best Researcher Award

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Dr. Anil Kumar Yadav: Faculty at Dr B R Ambedkar National Institute of Technology Jalandhar, India

Dr. Anil Kumar Yadav is currently serving as an Assistant Professor (Grade-I) in the Department of Instrumentation and Control Engineering at Dr. B.R. Ambedkar National Institute of Technology (NIT), Jalandhar. He has over fourteen years of teaching, research, and academic leadership experience across reputed institutions including NIT Jalandhar, NIT Hamirpur, Banasthali Vidyapith, and NSIT Delhi. His research interests span artificial intelligence-based control, renewable energy systems, electric vehicles, and dynamic system modeling. He has guided multiple Ph.D. and M.Tech. scholars, published more than 50 peer-reviewed papers in SCI/SCIE indexed journals, contributed several book chapters, and filed patents in the domain of renewable energy integration. Alongside his teaching and research contributions, Dr. Yadav has also successfully led large-scale funded projects, consultancy assignments, and startup initiatives focused on sustainable energy and intelligent control systems.

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Scopus Profile

Dr. Anil Kumar Yadav is an Assistant Professor (Grade-I) in the Department of Instrumentation and Control Engineering at Dr. B.R. Ambedkar National Institute of Technology (NIT), Jalandhar, India. With over fourteen years of academic and research experience, he has contributed significantly in the areas of intelligent control, renewable energy systems, and electric vehicle technologies. He has published 83 research papers, received over 1,500 citations from 928 documents, and holds an h-index of 26 as per Scopus. His work integrates artificial intelligence, nonlinear control, and sustainable energy technologies, with a strong emphasis on practical applications through funded projects, consultancies, and industry collaborations.

Education

He obtained his Ph.D. in Instrumentation and Control Engineering from NSIT, University of Delhi in 2017, where his doctoral research focused on developing artificial intelligence-based robust and adaptive control strategies for nonlinear systems. Prior to this, he completed his M.Tech. in Process Control from NSIT Delhi in 2010, graduating with an excellent GPA of 8.10/10. His academic journey began with a B.Tech. degree in Electronics and Instrumentation Engineering from UPTU Lucknow in 2007. His consistent academic performance, coupled with a strong inclination towards research, laid the foundation for his future career in higher education, innovation, and applied engineering research.

Research Focus

Dr. Yadav’s research is driven by the integration of advanced control techniques and intelligent algorithms with practical engineering systems. His core areas of expertise include intelligent and nonlinear control, renewable energy systems, smart microgrids, battery management for electric vehicles, and AI-driven modeling of complex dynamic systems. He has a strong focus on developing sustainable, efficient, and adaptive solutions for energy and control challenges, particularly in hybrid energy systems and real-time control applications. His interdisciplinary approach links control engineering, artificial intelligence, and renewable technologies, making his research both academically relevant and socially impactful.

Experience

With more than fourteen years of academic experience, Dr. Yadav has taught a wide range of undergraduate and postgraduate courses, supervised research scholars, and mentored student projects. He joined NIT Jalandhar as an Assistant Professor in 2023 after serving for nearly five years at NIT Hamirpur, where he held additional responsibilities such as Assistant Faculty In-charge of Discipline, Assistant Warden, and Officer In-charge of key laboratories. Earlier, he contributed as a faculty member at Banasthali Vidyapith and MIET Meerut, and as a Teaching-cum-Research Fellow at NSIT Delhi, where he built strong expertise in control systems and instrumentation. His administrative engagements include coordination of departmental newsletters, laboratories, accreditation processes, and time-table committees, reflecting his active contribution beyond classroom teaching.

Research Timeline & Activities

Over the years, Dr. Yadav has built a strong research portfolio supported by multiple funded projects. He served as Principal Investigator for projects sponsored by the Advanced National Research Foundation (ANRF) and HIMCOSTE, focusing on AI-based power flow management in solar-wind hybrid microgrids. He has also mentored startup projects including the development of solar-pedal charging e-bikes under Himachal Pradesh CM funding, and currently leads seed-funded research at NIT Jalandhar on multi-rating battery chargers for electric vehicles. His consultancy contributions include working with Himachal Pradesh State Electricity Board Ltd. on power system diagnostics and quality inspection, a project worth nearly ₹30 lakhs. He regularly publishes in high-impact SCI journals, delivers invited talks, and participates in international conferences to disseminate his work.

Awards & Honors

Dr. Yadav has received several prestigious grants and recognitions for his research and consultancy work. He has successfully secured government funding worth over ₹50 lakhs across different schemes, reflecting the significance and societal relevance of his projects. His contribution to consultancy with HPSEB Ltd. alone amounted to nearly ₹30 lakhs, showcasing his applied engineering expertise. Beyond funding achievements, he has been recognized for his contributions to renewable energy integration, control applications, and sustainable engineering. He also holds editorial positions with Scientific Reports (Springer Nature) and Journal of Autonomous Intelligence and serves as an active reviewer for leading journals such as IEEE Transactions on Intelligent Transportation Systems, IEEE Transactions on Industrial Electronics, and several others.

Top Recent Publications

Dr. Yadav has consistently published in leading international journals that carry high impact factors and strong global recognition. His most recent works include contributions to IEEE Transactions on Automation Science and Engineering (2025, IF 5.9), IEEE Transactions on Industry Applications (2025, IF 4.2), Science of the Total Environment (2024, IF 9.8), Engineering Applications of Artificial Intelligence (2024, IF 8.0), Chaos, Solitons & Fractals (2024, IF 5.3), and Neural Computing and Applications (2025, IF 5.1). These publications reflect his ongoing work in intelligent control, renewable energy systems, and advanced AI-driven applications, positioning him as an active contributor to global research in sustainable technologies.

Dr. Yadav has been actively publishing in leading SCI/SCIE indexed journals with strong citation impact. His most recent works include:

  • “Resilient Fractional-Order Fuzzy-Based Tilt Control of Renewable-Dominated Hybrid Power System”, Neural Computing and Applications, 2025 – already cited 2 times.

  • “Design of Smart Battery Charging Circuit via Photovoltaic for Hybrid Electric Vehicle”, IET Renewable Power Generation, 2025 – 30 citations.

  • “Robust IMC for Time Delay Attack Compensation of Renewable Supported Power System”, IEEE Transactions on Automation Science and Engineering, 2025 – pioneering contribution addressing cybersecurity in renewable grids.

  • “Resilient Ratio Control Assisted Virtual Inertia for Frequency Regulation of Hybrid Power System Under DoS Attack and Communication Delay”, IEEE Transactions on Industry Applications, 2025 – 13 citations.

  • “An Extensive Review on Load Frequency Control of Solar-Wind Based Hybrid Renewable Energy Systems”, 2025 – 26 citations, widely recognized as a benchmark review.

Together, these works reinforce Dr. Yadav’s research leadership in intelligent control, hybrid power systems, and renewable integration, with a growing citation impact reflecting their scientific significance and application potential.

Jayant Kumar Sahoo, Materials Science, Best Researcher Award

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Dr. Jayant Kumar Sahoo: Research Scholar at Geology Department, Ravenshaw University, Cuttack, Odisha, India

Jayant Kumar Sahoo is a passionate geoscientist with a strong academic foundation in Geology, Applied Geology, and Mineral Sciences. He has pursued his education with distinction, securing consistently high academic scores across all levels of study, and has gained both research and field experience in mineral characterization, ore geology, and applied earth sciences. With hands-on expertise in advanced geological instruments and practical field mapping, he has developed the ability to bridge theoretical knowledge with practical applications. His long-term vision is to contribute to the advancement of geological research, resource exploration, and sustainable mineral utilization while building a career in academia and research institutions.

Online Profiles

Scopus Profile

Education

Jayant’s educational journey reflects consistent excellence and dedication to the field of geology. After excelling in his secondary education by securing in 10th standard (2013) from BSE, Odisha, he continued with +2 Science (2015) from CHSE, Odisha. His passion for geology led him to pursue a B.Sc. (Geology Hons.) at Autonomous College, Talcher under Utkal University, where he graduated with distinction in 2018. He then specialized further with a M.Sc. in Applied Geology at Sambalpur University in 2020, where he focused on applied aspects of geological sciences. To advance his research career, he undertook an M.Phil. in Geology at Ravenshaw University, Cuttack (2022), earning, where he refined his skills in both laboratory-based analysis and field research, marking a strong academic trajectory.

Research Focus

His core research focus lies in mineralogical and geochemical studies, particularly in the characterization of iron and manganese ores. He is highly skilled in handling modern analytical techniques such as X-ray Diffraction (XRD), Scanning Electron Microscopy with Energy Dispersive Spectroscopy (SEM-EDS), X-Ray Fluorescence (XRF), Optical Microscopy, and Raman Spectroscopy. His work integrates field investigations, laboratory experimentation, and data interpretation to understand mineral composition, texture, and ore genesis. Beyond mineralogy, his interests extend to petrology, economic geology, and applied mineral exploration, with an emphasis on connecting research outcomes to industrial and economic applications. He aims to utilize his expertise for resource exploration, sustainable mining practices, and scientific innovation in earth sciences.

Experience

Jayant has gained diverse research and professional experience in both academic and applied geology domains. He worked as a Project Associate-I at CSIR–Institute of Minerals and Materials Technology (IMMT), Bhubaneswar, from November 2021 to November 2022, where he contributed to applied research projects focused on mineralogical characterization of iron and manganese ores. His role included advanced laboratory analysis, data interpretation, and collaborative research. Prior to this, he pursued his M.Phil. research at Ravenshaw University, Cuttack (2020–2022), where he undertook independent research work on ore minerals, combining field exploration with laboratory-based analysis. He also has field experience at Daitari Iron Ore Mines, gaining practical knowledge of geological mapping, sampling, and ore deposit studies. His exposure to academic research, industry-oriented projects, and laboratory instrumentation has built a strong foundation for his professional career.

Research Timeline & Activities

Jayant’s academic and research journey demonstrates a steady progression of specialization and professional growth. He completed his B.Sc. (2018) in Geology with distinction, followed by a M.Sc. (2020) in Applied Geology, where he focused on advanced geological principles and practical applications. He then pursued an M.Phil. (2020–2022) in Geology at Ravenshaw University, conducting a dissertation on ore mineral characterization. Simultaneously, he joined as a Project Associate-I at CSIR–IMMT, Bhubaneswar (2021–2022), where he gained hands-on research experience in mineralogical analysis of ores. Throughout his journey, he has been actively involved in field surveys, laboratory testing, scientific report preparation, and collaborative research projects. His activities highlight a balance between academic achievements, professional research engagement, and technical expertise development.

Awards & Honors

Jayant has been recognized throughout his career for his consistent academic achievements and research excellence. He graduated with distinction in both B.Sc. and M.Sc., securing top scores among his peers, which reflects his dedication and commitment to his field. His selection as a Project Associate at CSIR–IMMT, Bhubaneswar, a prestigious national research institute, further highlights his capability and research potential. He also earned distinction-level marks in his M.Phil. research work, showcasing his advanced analytical skills and scientific aptitude. His achievements serve as milestones that demonstrate his perseverance, knowledge, and research-driven mindset.

Top Recent Publication

Jayant Kumar Sahoo has authored two research articles indexed in Scopus, with a research focus on ore mineralogy and resource utilization. His most recent publication, “Processing of Blue Dust from Daitari Iron Ore Deposit, Singhbhum Craton, Odisha, for Optimum Utilisation,” appeared in the Transactions of the Indian Institute of Metals (2025). This work highlights innovative methods for processing low-grade iron ores for better industrial use, contributing to the advancement of mineral beneficiation studies in India. His growing publication record demonstrates his active engagement in applied geological research and mineral resource optimization.

Sahoo, J. K., et al. (2025). Processing of Blue Dust from Daitari Iron Ore Deposit, Singhbhum Craton, Odisha, for Optimum Utilisation. Transactions of the Indian Institute of Metals. [Scopus ID: 59905925700]

Ramyea R, Engineering, Best Researcher Award

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Asst. Prof Ramyea R: Assistant Professor at Kongu Engineering College, India

Dr. Ramyea R is an accomplished academic and researcher serving as an Assistant Professor in the Department of Electronics and Communication Engineering at Kongu Engineering College, Perundurai, Erode, India. With a strong foundation in communication systems and materials engineering, she has dedicated her career to advancing antenna technologies for next-generation wireless and cognitive radio applications. Her work bridges the gap between material science and RF engineering, focusing on the design, simulation, fabrication, and characterization of flexible and conformal antennas using polymer substrates. She has contributed significantly to the development of high-performance, compact, and multi-functional antennas, with her research outputs appearing in reputed peer-reviewed journals. Through her innovative approaches, Dr. Ramyea has made notable strides in ultrawideband communication, spectrum sensing, and triband systems, providing practical solutions for modern wireless challenges.

Online Profiles

Google Scholar Profile

As of the latest update, the researcher has accumulated a total of 75 citations, all of which were received since 2020, reflecting the growing impact of their recent work. Their h-index stands at 4, indicating that at least four of their publications have each been cited four or more times. Additionally, they hold an i10-index of 1, signifying one publication with at least ten citations.

Education

Dr. Ramyea holds a Master of Engineering in Communication Systems from Kongu Engineering College, Tamil Nadu, India, awarded in May 2016. Her postgraduate studies emphasized the integration of antenna theory, electromagnetic wave propagation, and advanced material applications in RF system design. Her academic journey was marked by a deep interest in polymer-based antenna substrates, leading to innovative concepts in flexible and conformal communication devices. Through coursework, laboratory research, and project-based learning, she acquired strong expertise in simulation tools, high-frequency measurements, and the application of composite materials in antenna engineering, setting the stage for her research-driven academic career.

Research Focus

Her primary research focus lies in the design and optimization of antennas for cognitive radio and emerging wireless communication technologies. She has a particular interest in dual-port, multi-band, and ultrawideband antennas with enhanced spectrum sensing capabilities, aiming to improve adaptability and efficiency in dynamic communication environments. Leveraging polymer substrates such as polyvinyl alcohol, graphite composites, and polyethylene, her work addresses the growing need for lightweight, flexible, and durable antenna systems for wearable and conformal applications. By combining computational simulations with experimental prototyping, Dr. Ramyea seeks to push the boundaries of antenna miniaturization, bandwidth enhancement, and environmental adaptability.

Experience

Dr. Ramyea’s academic career at Kongu Engineering College has been characterized by a blend of teaching excellence, research innovation, and active student mentorship. As an Assistant Professor in the Department of ECE, she has taught core courses in communication engineering and guided numerous undergraduate and postgraduate projects in RF and microwave engineering. Her collaborative spirit has led to interdisciplinary projects that merge electronic design with material science, enabling the exploration of novel antenna geometries and substrate materials. She is actively involved in writing research proposals, publishing scholarly articles, and participating in conferences that bring together global experts in antenna and wireless technologies.

Research Timeline

Her research journey began with her master’s studies in 2014–2016, where she explored polymer material applications in RF devices. From 2017 to 2022, she focused on building expertise in computational antenna design, gradually transitioning toward experimental validation and fabrication of flexible systems. The period from 2023 to 2025 marks a prolific phase in her career, with multiple publications in high-impact journals such as Wireless Networks, International Journal of Communication Systems, and Journal of Computational Electronics. These works reflect a consistent trajectory toward practical, application-ready antenna designs for cognitive radio and advanced wireless systems, underpinned by the use of sustainable and flexible materials.

Awards & Honors

While specific award details are to be documented, Dr. Ramyea’s research outputs and publication record demonstrate her recognition as an emerging voice in the antenna design and wireless communication research community. Her contributions to integrating novel materials into antenna systems have been highlighted in academic conferences and acknowledged by peer reviewers for their originality and practical significance. She has also played an instrumental role in student-led research projects that have received accolades at institutional and regional levels, showcasing her ability to inspire and mentor the next generation of engineers.

Recent Publications

Her recent publications include:

  • Computer simulations of a four-element array antenna using polyethylene (PE) substrate and parameter analysis for compact, flexible wireless applications
    R Ramyea, SK Kandasamy, N Kasthuri
    Journal of Computational Electronics, 24(2), 40, 2025.

  • Dual‐Port Interweave Antenna Design With Wideband Spectrum Sensing and Triband Communication Capabilities for Cognitive Radio Applications
    R Ramyea, N Kasthuri, SK Kandasamy
    International Journal of Communication Systems, 38(10), e70142, 2025.

  • Exploring Polymer Substrate-based Frequency Reconfigurable Antenna for Cognitive Radio Applications: Design and Analysis
    R Ramyea, N Kasthuri, E Mugeshkumar, SS Namitha, R Sakthimurugan
    2025 3rd International Conference on Intelligent Data Communication …, 2025.

  • Crack Detection and Output Power Analysis in Solar Panels Using DANet Algorithm
    N Kasthuri, M Jothish, R Ramyea, S Kirithick, NT Josika
    2024 15th International Conference on Computing Communication and Networking …, 2024.

  • Analysing Switching States on the Ground Plane of a Frequency Reconfigurable Cognitive Radio Antenna
    R Ramyea, N Kasthuri, SK Kandasamy, A Kaviya, T Jeevitha
    2024 15th International Conference on Computing Communication and Networking …, 2024.

 

Priyanka arya, Agriculture, Best Researcher Award

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Dr. Priyanka arya: Teaching Faculty at GBPUA&T, Pantnagar University, India

Dr. Priyanka Arya is a highly motivated food technologist with a Ph.D. in Food Technology, bringing over seven years of experience in research, teaching, and industry collaboration. Her expertise lies in microbial fermentation, probiotic strain development, and functional food innovation. She has actively contributed to scientific research through high-impact publications, book chapters, patents, and culture depositions in national and international repositories. Passionate about bridging traditional food practices with modern biotechnology, she emphasizes sustainable and health-oriented food solutions. Dr. Arya also plays an active role in mentoring, capacity-building, and food entrepreneurship training at grassroots levels.

Online Profiles

As of August 2025, Dr. Priyanka Arya has received 46 citations, with an h-index of 4 and an i10-index of 1, reflecting the impact and relevance of her research in food science and microbial biotechnology. These metrics are consistent both overall and since 2020, indicating a steady and focused contribution to the academic community through high-quality, peer-reviewed publications.

Education

Dr. Arya completed her Ph.D. in Food Technology from Dr. YSP University of Horticulture and Forestry, Nauni, in 2024. Her doctoral research centered on isolating, characterizing, and identifying microbial strains from naturally fermented milk, with an emphasis on probiotic efficacy and bioactive compound profiling. She earned her M.Sc. in Food Science and Technology from Banaras Hindu University (2017), where she developed functional bread using banana flour and whey under Modified Atmosphere Packaging. She holds a B.Sc. in Food Technology from GBPUA&T, Pantnagar (2015), where she developed foundational expertise in food processing, safety, and nutrition.

Research Focus

Her research primarily revolves around food microbiology, fermentation biotechnology, and the valorization of underutilized natural resources for health-promoting food products. She has successfully isolated and deposited several novel bacterial and yeast strains with antimicrobial and antioxidant potential. Her work integrates molecular techniques like 16S rRNA sequencing, GC-MS for volatile compound analysis, and in vitro antimicrobial assays to evaluate strain efficacy. She is particularly interested in the functional enhancement of traditional foods through fermentation and bioactive enrichment, aiming to improve shelf-life, safety, and nutritional profiles.

Experience

Dr. Arya has served in multiple academic roles including Teaching Assistant and Guest Lecturer at reputed institutions such as GBPUA&T, Kumaun University, and Surajmal Agarwal Private Kanya Mahavidyalaya. She taught undergraduate and vocational students and delivered lectures on entrepreneurship, food processing, and innovation in the agri-food sector. She also contributed as a consultant in an industry-led food processing unit under the GRACE project in Himachal Pradesh. Her training stints at Britannia Industries, Anchal Dairy, and Mr. Pepper bakery expanded her practical knowledge in industrial production, quality control, and product standardization.

Research Timeline

Her research journey began in 2015 with her postgraduate work on functional bread, leading to her first peer-reviewed publication. Between 2020–2024, she conducted her Ph.D. research on probiotic-rich fermented milk, characterizing five novel microbial strains and contributing significantly to GenBank and MTCC repositories. Her interdisciplinary approach combined microbial identification, bioactive compound analysis, and product development. In parallel, she co-authored several book chapters and articles, received grants, and contributed to patent development. Her consistent involvement in lab management, mentoring, and scientific writing reflects a well-rounded and dynamic research career.

Awards & Honors

Dr. Arya has been recognized with the Young Research Fellow Award (2023) and the Best Oral Presentation Award (2024) at international conferences in food and agricultural sciences. She received the ICAR-Senior Research Fellowship (2020–2023) for her doctoral work and has been acknowledged for her leadership in academic mentoring. Outside of academia, she also holds a state-level silver medal in Karate, demonstrating her well-rounded profile and commitment to discipline and resilience. Her recognitions highlight her contributions to applied research and academic excellence in food technology.

Recent & Notable Publications

In her most recent publication titled “Effects of different solvents on phytochemical constituents, in vitro antimicrobial activity and volatile components of Boehmeria rugulosa wood extract” (Scientific Reports, 2025), Dr. Arya investigated the bioactive profile of a traditional Himalayan plant. Using GC-MS and microbial assays, the study provided insight into the compound’s antimicrobial spectrum, supporting its use in natural food preservation. The article, published in a high-impact journal (IF 9.80), exemplifies her commitment to integrating indigenous knowledge with cutting-edge analytical techniques for functional food innovation.

  1. Bhatt, K., Vaidya, D., Kaushal, M., Gupta, A., Soni, P., Arya, P., & Gautam, A. (2020). Microwaves and radiowaves: In food processing and preservation. International Journal of Current Microbiology and Applied Sciences, 9(9). Cited by: 26

  2. Chand, S., Devi, S., Devi, D., Arya, P., Manorma, K., Kesta, K., & Sharma, M. (2023). Microbial and physico-chemical dynamics associated with chicken feather compost preparation vis-à-vis its impact on the growth performance of tomato crop. Biocatalysis and Agricultural Biotechnology, 54, 102885. https://doi.org/10.1016/j.bcab.2023.102885 Cited by: 8

  3. Arya, P., & Poonia, A. (2019). Effect of banana flour on composition and shelf life of concentrated whey incorporated bread. The Pharma Innovation Journal, 8(1), 616–621. Cited by: 6

  4. Devi, B., Devi, S., Sood, D., & Arya, P. (2023). Microbial stabilizers in food processing. In Microbes for Natural Food Additives (pp. 113–145). Springer Nature Singapore. Cited by: 5

  5. Arya, P., Vaidya, D., Kaushal, M., Devi, S., Gupta, A., & Chand, S. (2025). Effects of different solvents on phytochemical constituents, in-vitro antimicrobial activity, and volatile components of Boehmeria rugulosa Wedd. wood extract. Scientific Reports, 15(1), 29135. https://doi.org/10.1038/s41598-025-14506-x (Newly Published)

  6. Sood, D., Devi, S., Devi, B., & Arya, P. (2023). Microbial antioxidants in food products. In Microbes for Natural Food Additives (pp. 27–51). Springer Nature Singapore.

  7. Arya, P. (2020). Newer techniques in food processing: High intensity light, pulse electric field and infrared. International Journal of Scientific Research & Engineering Trends, 6(3), 1824–1826.

  8. Patidar, S., Vaidya, D., Kaushal, M., Gupta, A., Ansari, F., Arya, P., & Chauhan, P. (2022). A comparative study on nutritional and functional composition of fresh apple pomace and dried apple pomace powder. AMA, Agricultural Mechanization in Asia, Africa and Latin America, 53(7), 9025–9036.

Nemappa G Hanamaratti, Agriculture, Best Researcher Award

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Dr. Nemappa G Hanamaratti: Principal Scientist at University of Agricultural Sciences, Dharwad, India

Dr. Nemappa G. Hanamaratti is a Principal Scientist specializing in Plant Breeding at the All India Coordinated Research Project (AICRP) on Sorghum, University of Agricultural Sciences (UAS), Dharwad, India. With over three decades of experience in crop genetics, plant breeding, and agricultural research, Dr. Hanamaratti has contributed extensively to the development of drought-resistant, high-yielding varieties of sorghum, rice, and other staple crops. His expertise lies in enhancing crop resilience to abiotic stresses, especially drought, through genetic improvement and advanced breeding methodologies. Throughout his career, he has been a driving force behind several national projects, and his work has had a direct impact on food security in water-scarce regions. Dr. Hanamaratti’s leadership in both research and outreach programs has earned him recognition in the agricultural community, and he remains committed to advancing sustainable farming practices through crop improvement.

Online Profiles

Google Scholar Profile

  • Citations: Total number of times your work has been cited.

    • 700 total is quite solid, and 276 since 2020 shows recent relevance.

  • h-index: You have 14 papers that have at least 14 citations (and 10 papers with at least 10 citations since 2020).

    • Indicates consistent impact across multiple publications.

  • i10-index: You have 18 papers with at least 10 citations (10 of those published or cited since 2020).

    • Shows a good number of papers are gaining traction.

Education

Dr. Hanamaratti’s educational journey began with a Bachelor’s degree in Agriculture (B.Sc.) from the University of Agricultural Sciences, Dharwad, in 1989. He went on to pursue a Master’s degree (M.Sc.) in Genetics and Plant Breeding at the same institution, where he honed his skills in crop breeding and genetic analysis. After completing his M.Sc., he advanced his research expertise through a Ph.D. in the same field, awarded in 2007. His doctoral work focused on understanding and improving drought resistance in upland rice, an area critical for ensuring food security in drought-prone regions of India. His academic training laid the foundation for his career as a leading scientist in the field of plant breeding, enabling him to combine traditional breeding methods with modern genetic techniques for crop improvement.

Research Focus

Dr. Hanamaratti’s research primarily revolves around the genetic improvement of crops, particularly sorghum and rice, to enhance their resilience to environmental stressors such as drought, salinity, and heat. His work incorporates advanced breeding techniques, molecular markers, and genomic tools to identify traits that contribute to stress tolerance. In particular, Dr. Hanamaratti’s research on drought tolerance in sorghum and rice has led to the identification of specific QTLs (Quantitative Trait Loci) responsible for improved water-use efficiency and stress resistance. His projects also explore hybrid breeding, the development of biofortified crops, and strategies for improving the nutritional content of staple crops. Through his work, he aims to develop varieties that not only yield higher under adverse conditions but also contribute to the overall health and nutrition of populations in developing countries.

Experience

Dr. Hanamaratti’s professional experience spans over 30 years, during which he has held several key roles within India’s agricultural research system. He began his career as a Research Assistant and later as a Junior Rice Breeder, where he contributed to early-stage breeding programs for rice varieties adapted to water-limited environments. Over time, Dr. Hanamaratti advanced to Senior Scientist positions, taking on greater leadership responsibilities and overseeing multi-institutional projects aimed at developing drought-resistant rice and sorghum varieties. As Principal Scientist, he currently heads the AICRP Sorghum program at UAS Dharwad, where he has led numerous successful breeding initiatives. These efforts have resulted in the release of several new sorghum and rice varieties, such as CSV-42 and CSH-42, which are now widely cultivated across India. His work on hybrid varieties has significantly contributed to the sustainability of rain-fed agriculture in India.

Research Timeline

  • 1993-2007: Early career focused on genetic analysis and drought resistance in rice, culminating in his Ph.D. research on upland rice. He developed key breeding lines and identified morphological traits linked to drought resistance.

  • 2007-2014: As Senior Scientist, he focused on enhancing stress tolerance in sorghum, particularly in terms of heat and water-use efficiency. His research led to the development of drought-tolerant hybrids and new lines suitable for rain-fed environments.

  • 2014-Present: Serving as Principal Scientist, Dr. Hanamaratti has expanded his work to include biofortification of sorghum and the development of hybrid varieties that offer both drought resilience and enhanced nutritional profiles. His current research includes the integration of molecular breeding techniques to accelerate the development of climate-resilient crops.

Awards & Honors

Dr. Hanamaratti has received numerous accolades for his contributions to agricultural research and breeding. Among his most notable honors is the Jawaharlal Nehru ICAR Award (2009), which recognized his outstanding Ph.D. research on rice breeding. In 2023, he was awarded the Best Research Scientist award by the University of Agricultural Sciences, Dharwad, for his leadership and research excellence. Additionally, he has been the recipient of several team awards for his contributions to the AICRP Sorghum, including recognition for his role in developing high-yielding and disease-resistant varieties. Dr. Hanamaratti is also a fellow of several national societies, including the Indian Society of Genetics and Plant Breeding (ISGPB), and continues to be a sought-after speaker at international agricultural conferences.

Recent Top Noted Publications – 2025

  • Rajashekhara, K., Hanamaratti, N.G., Madhusudhana, R., et al. (2025). Deciphering morpho-physiological traits for identifying drought resilient varieties of post-rainy sorghum (Sorghum bicolor L. Moench). Plant Physiology Reports, pp. 1–16.

  • Gopalgowda, H.J., Ashoka, P., Yenagi, B.S., Rajakumar, G.R., et al. (2025). Optimizing sowing windows and nutrient levels for higher productivity of browntop millet (Brachiaria ramosa L.). Journal of Farm Sciences, 38(01), pp. 33–36.

  • Chavadappanavar, P.R., Shaila, H.M., Mallapur, C.P., et al. (2025). Influence of intercrops and border crops on the incidence of fall armyworm (Spodoptera frugiperda) on rabi sorghum. Journal of Farm Sciences, 38(01), pp. 56–60.

  • Pattanashetti, B.M., Sajjanar, G.M., Madhusudana, R., Hanamaratti, N.G. (2025). Novel restorers identified for maldandi cytoplasm for enhancing the hybrid breeding in rabi sorghum. Genetic Resources and Crop Evolution, pp. 1–8.

  • Nayak, P., Shaila, H.M., Hanamaratti, N.G., Bandiwaddar, T.T., Anjum, S.S., et al. (2025). Management of shoot fly, stem borer and fall armyworm on rabi sorghum in North Transitional Zone of Karnataka, India. Journal of Experimental Zoology India, 28(1).

  • Nayak, P., Shaila, H.M., Hanamaratti, N.G., Bandiwaddar, T.T., Anjum, S.S. (2025). Population dynamics of insect pests of rabi sorghum in Karnataka, India. Journal of Experimental Zoology India, 28(1).

Mythili Ravichandran, Agriculture, Best Researcher Award

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Dr. Mythili Ravichandran: Assistant Professor & Head -Vivekanandh Arts and Science College for Women,Sankari, Salem, India

Dr. Mythili Ravichandran is a seasoned academic and researcher in the field of microbiology with a strong focus on microbial diversity, biotechnological applications, and environmental sustainability. She holds a Ph.D. in Microbiology from Periyar University, India, and is currently serving as the Head of the Department of Microbiology at Vivekanandha Arts and Science College for Women in Salem, Tamil Nadu. Her research spans areas such as Archaea, Agricultural Microbiology, Marine Valorization, and microbial bioremediation. With over ten years of experience in academic research, teaching, and leadership, Dr. Ravichandran has made significant contributions to the microbial sciences, particularly in the development of bio-based technologies for sustainable agriculture and environmental protection. She has published numerous peer-reviewed papers and has been involved in several high-impact research collaborations both nationally and internationally.

Online Profiles

Dr. Mythili Ravichandran has a total of 254 citations and an h-index of 9, which reflects the significant impact her research has had on the scientific community. Her work, particularly in microbial biotechnology and environmental microbiology, has been widely recognized. Additionally, her i10-index of 8 demonstrates that a number of her publications have been cited at least ten times, further illustrating the lasting relevance of her contributions to the field. These metrics underscore Dr. Ravichandran’s commitment to producing high-quality, influential research that advances both scientific knowledge and practical applications.

Education

Dr. Mythili Ravichandran’s academic journey began with a Bachelor’s degree in Microbiology, followed by a Master’s degree in Applied Microbiology from Periyar University, where she emerged as the first rank holder. Her passion for microbiology led her to pursue a Ph.D. from the same institution, focusing on microbial biodiversity, environmental sustainability, and bioremediation. Additionally, she has completed specialized professional certifications in areas such as Green and Energy Audits, Waste Management, and ISO auditing, which have further enriched her research. Her educational foundation has shaped her holistic approach to understanding microbial systems and their real-world applications in agriculture and environmental management.

Research Focus

Dr. Mythili Ravichandran’s primary research interest lies in exploring the microbial world for solutions to pressing global challenges. Her work delves into Archaea—a group of microorganisms known for their resilience in extreme environments—and their potential applications in agriculture and biotechnology. Another key area of her research is Agricultural Microbiology, where she investigates the use of microbial solutions like biopesticides and biofertilizers for improving crop yield and sustainability. Furthermore, Dr. Ravichandran’s focus on Marine Valorization seeks to harness marine organisms for biotechnological applications, such as bioremediation and the development of sustainable alternatives to conventional farming practices. Her work is not only aimed at advancing scientific knowledge but also at providing actionable solutions for environmental and agricultural challenges.

Experience

Dr. Mythili Ravichandran has a diverse professional background that spans teaching, research, and industry collaboration. She began her research career as a Junior Research Fellow at the Department of Science and Technology (DST), New Delhi, where she worked on the role of microbial communities in environmental sustainability. Afterward, she served as a Senior Research Fellow at DST and later as an Assistant Professor at K.S. Rangasamy College of Arts and Science. Currently, as the Head of the Department of Microbiology at Vivekanandha College, she is responsible for developing the curriculum, guiding research projects, and leading academic innovations. Her role as a mentor has helped shape the careers of numerous students, many of whom have gone on to excel in their own research and professional pursuits.

Research Timeline

  • 2012-2015: Served as a Junior and Senior Research Fellow under the Department of Science and Technology, New Delhi, working on environmental microbiology and sustainable practices.

  • 2016-2022: Joined K.S. Rangasamy College of Arts and Science, where she developed expertise in the field of marine microbiology and agricultural biotechnology, gaining significant research funding for her projects.

  • 2022-Present: Currently, as Head of the Department of Microbiology at Vivekanandha Arts and Science College, Dr. Ravichandran oversees various research projects and has led interdisciplinary collaborations between academia and industry. She has also served as the principal investigator for projects focusing on the microbial enhancement of soil fertility and sustainable agriculture.

Awards & Honors

Dr. Mythili Ravichandran’s academic excellence has been recognized with numerous awards. She was conferred the Young InnovateHER (Research) Award (2024) by Somnogen Canada Inc. for her significant contributions to sustainable agricultural practices. In recognition of her outstanding teaching efforts, she was awarded the Best Teacher Award at Vivekanandha College (2023). Additionally, Dr. Ravichandran has received several travel grants and best oral presentation awards at international conferences, including a Best Research Paper Award at the International Conference on Environmental Microbiology (2022). Her innovative approach to research has earned her multiple research grants and a growing recognition in scientific communities globally.

Top Recent Publications

Dr. Mythili Ravichandran has made significant contributions to various fields, particularly in microbiology, drug discovery, and environmental science. Some of her recent publications include:

  1. “Biological evaluation and molecular docking of sulfated polysaccharide-derived glucuronic acid from S. platensis as a potential inhibitor of SARS-CoV-2 ORF3a” (Chemical Papers, 2025) – This study explores the potential of glucuronic acid, derived from Spirulina platensis, as an inhibitor of SARS-CoV-2, offering insights into natural product-based antiviral strategies.

  2. “Exploration of Metabolomics of Plants for Drug Design Using In Silico Studies” (Therapeutic Plants: Recent Advances in the Use of Herbs as Alternative, 2025) – This paper delves into the use of metabolomics and in silico methods for drug design, with a focus on plant-based compounds as alternatives in modern therapeutics.

  3. “Innovative Drug Delivery Systems in Cardiovascular Therapeutics” (Therapeutic Plants: Recent Advances in the Use of Herbs as Alternative, 2025) – A collaborative work that reviews the role of innovative drug delivery systems in the treatment of cardiovascular diseases, highlighting the potential of herbal alternatives.

  4. “Comparative tracking of Turbinaria conoides and Gelidium elegans for enhanced bioethanol production” (International Journal of Environmental Science and Technology, 2025) – This article investigates the bioethanol production capabilities of marine algae, contributing to sustainable energy research.

  5. “Isoptericola haloaureus sp. nov., a dimorphic actinobacterium isolated from mangrove sediments of southeast India, implicating biosaline agricultural significance” (Antonie Van Leeuwenhoek, 2025) – A taxonomic study describing a new actinobacterium species with potential applications in biosaline agriculture.

  6. “Correction: Isoptericola haloaureus sp. nov., a dimorphic actinobacterium isolated from mangrove sediments of southeast India, implicating biosaline agricultural…” (Antonie Van Leeuwenhoek, 2025) – A correction to the previous study, ensuring the accuracy of data related to the novel species.