Tag: Best Innovator Award

Nirmal Kaur, Computer Science, Best Innovator Award

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Dr. Nirmal Kaur: Associate Professor at UIET, PU, India

Dr. Nirmal Kaur is an Associate Professor in the Department of Computer Science and Engineering at the University Institute of Engineering and Technology (UIET), Panjab University, Chandigarh. With over 20 years of teaching and research experience, Dr. Kaur has made significant contributions to the fields of Machine Learning, Deep Learning, Sentiment Analysis, and Distributed Computing. She has been the Principal Investigator for multiple high-impact research projects, including the development of multimodal emotion detection systems and cybersecurity challenges for women users. In addition to her research, Dr. Kaur has mentored numerous Ph.D. and M.Tech. students, guiding them to success in diverse areas such as deepfake detection, energy-efficient scheduling, and multimodal emotion recognition. Her work is internationally recognized, and she has published extensively in top-tier journals and conferences.

Online Profiles

Citations & Impact Metrics

  • Total Citations: 329

  • h-index: 11

  • i10-index: 11

These metrics reflect Dr. Kaur’s significant contribution to her research field, with numerous citations highlighting the impact and relevance of her work in areas like emotion detection, deepfake identification, and distributed computing.

Education

Dr. Kaur earned her Ph.D. in Computer Science and Engineering from I.K. Gujral Punjab Technical University, Jalandhar, in November 2017. Her doctoral research focused on energy-efficient scheduling techniques in distributed computing systems. She was supervised by Prof. Dr. Savina Bansal, a distinguished researcher in the field. She holds an M.Tech. in Computer Science and Engineering from Baba Banda Singh Bahadur Engineering College, Punjab, where she achieved distinction and was a top scorer in her batch. She completed her B.Tech. in Computer Science and Engineering at Punjabi University, Patiala, in 2003. Throughout her academic career, Dr. Kaur has demonstrated excellence, both in terms of research output and academic achievement.

Research Focus

Dr. Kaur’s research primarily focuses on advanced applications of Machine Learning and Deep Learning, particularly in emotion detection across various modalities, including text, audio, video, and multimodal data. She has made pioneering contributions to the detection of deepfakes in multimedia content, using cutting-edge techniques in computer vision and audio signal processing. Additionally, Dr. Kaur is deeply engaged in distributed computing research, working on energy-efficient scheduling algorithms for heterogeneous systems, cloud computing, and task scheduling. Her work not only advances theoretical frameworks but also focuses on real-world applications, such as improving cybersecurity, enhancing multimedia forensics, and contributing to energy-aware computing systems in large-scale environments.

Experience

Dr. Kaur’s academic career spans over two decades. She is currently serving as an Associate Professor at UIET, Panjab University, since 2024. Prior to this, she was an Assistant Professor at the same institution from 2011 to 2024, where she contributed extensively to teaching and research. Before joining UIET, Dr. Kaur worked as an Assistant Professor at Bhai Gurdas Institute of Engineering and Technology, Sangrur, and Swami Vivekanand Institute of Engineering and Technology. During her career, she has taught various undergraduate and postgraduate courses in Computer Science and Engineering. Her expertise lies in Deep Learning, Distributed Computing, Artificial Intelligence, and Cybersecurity. In addition to her teaching, Dr. Kaur has actively participated in departmental administration and has been a member of several academic committees.

Research Timeline & Activities

  • 2023-2025: Dr. Kaur is leading the “Development of Multimodal and Multilingual Emotion Detection System,” funded by IIT Mandi iHub & HCI Foundation. This project aims to enhance emotion detection systems by incorporating multiple languages and data modalities.

  • 2020-2021: Principal Investigator for a research project sponsored by the National Commission for Women, Govt. of India, focused on cybersecurity challenges and cybercrimes against women in Punjab. The project successfully examined the specific issues faced by women users in cyber space.

  • 2016-Present: Dr. Kaur has been mentoring Ph.D. candidates, guiding their research on topics like deepfake detection, energy-aware scheduling in cloud environments, and human pose estimation.

  • Ongoing: Actively working on deepfake detection algorithms, multimodal emotion recognition, and developing energy-efficient scheduling algorithms for heterogeneous computing environments. Dr. Kaur is also reviewing articles for top-tier journals and contributing to the academic community through invited talks and workshops.

Awards & Honors

Dr. Kaur has been recognized with several prestigious awards throughout her academic career. She was awarded the Best Research Award from the Department of Computer Science and Engineering, UIET, in 2017, in recognition of her outstanding contributions to research. She has also received a Best Paper Award for her work presented at the 4th International Conference on Machine Intelligence and Signal Processing, NIT Raipur, 2022. In addition to these accolades, she was honored with a scholarship by the Punjab Government for her academic performance in matriculation. Dr. Kaur’s research contributions in emotion detection and cybersecurity have earned her recognition both within India and internationally.

Top Noted Publication

Dr. Kaur has authored and co-authored several influential papers, with some of her top publications including:

  • Review of Audio Deepfake Detection Techniques: Issues and Prospects

    • Authors: A. Dixit, N. Kaur, S. Kingra

    • Journal: Expert Systems, 40(8), e13322

    • Cited By: 48

    • Year: 2023

  • Emergence of Deepfakes and Video Tampering Detection Approaches: A Survey

    • Authors: S. Kingra, N. Aggarwal, N. Kaur

    • Journal: Multimedia Tools and Applications

    • Cited By: 35

    • Year: 2022

  • LBPNet: Exploiting Texture Descriptor for Deepfake Detection

    • Authors: S. Kingra, N. Aggarwal, N. Kaur

    • Journal: Forensic Science International: Digital Investigation, 42, 301452

    • Cited By: 32

    • Year: 2022

  • Major Convolutional Neural Networks in Image Classification: A Survey

    • Authors: N. Kumar, N. Kaur, D. Gupta

    • Conference: International Conference on IoT Inclusive Life (ICIIL 2019)

    • Cited By: 25

    • Year: 2020

  • A Survey of Routing Protocols in Wireless Sensor Networks

    • Authors: N. Kaur, S. Verma, D. Kavita

    • Journal: IJET, 7(4.12), 20-25

    • Cited By: 24

    • Year: 2018

Strength for the Best Innovator Award

Dr. Nirmal Kaur’s innovative contributions span several important areas in the fields of Computer Science and Engineering. The following strengths highlight why she is considered an exceptional innovator in her field:

1. Pioneering Work in Deepfake Detection

Dr. Kaur’s innovative research in deepfake detection has led to significant advancements in multimedia forensics. Her approach integrates both audio and video signal processing, helping to address critical issues in identifying manipulated content. By developing cutting-edge techniques for detecting deepfake videos and audio, she has set new standards for accuracy and reliability in this fast-evolving domain.

2. Multimodal Emotion Detection Systems

Dr. Kaur has made groundbreaking strides in the development of multimodal emotion detection systems. By combining various data modalities like text, audio, and video, her research allows for a more comprehensive and nuanced understanding of human emotions. This work has broad applications in areas such as sentiment analysis, human-computer interaction, and mental health monitoring.

3. Energy-Efficient Scheduling in Distributed Computing

Her research on energy-efficient scheduling techniques for distributed computing systems has been transformative. Dr. Kaur’s work focuses on improving the energy consumption of heterogeneous systems, ensuring that computational tasks are optimized for power usage without compromising performance. This has far-reaching implications for cloud computing and large-scale data center management.

4. Cybersecurity Challenges for Women Users

Dr. Kaur’s work on cybersecurity, particularly focusing on the challenges faced by women users in the digital space, has addressed a critical gap in the understanding of gender-specific cybercrimes. By leading the National Commission for Women’s project, she has not only identified key security issues but also proposed actionable solutions to protect vulnerable users from online harassment and cybercrimes.

5. Mentorship and Leadership in Research

Dr. Kaur’s dedication to mentoring and guiding students is another area where she demonstrates her innovation. By supervising numerous Ph.D. and M.Tech. candidates on cutting-edge research topics such as multimodal emotion recognition, deepfake detection, and cloud computing, she has fostered a new generation of innovators. Her leadership in research has helped cultivate a robust academic and research environment that encourages creativity and critical thinking.

Kumari Deepika, Materials Science, Best Innovator Award

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Dr. Kumari Deepika: Assistant Professor at AIIMS-CAPFIMS, Maidan Garhi, New Delhi, India

Dr. Kumari Deepika is an accomplished Prosthodontist and Assistant Professor currently working at AIIMS-CAPFIMS, New Delhi. With a passion for dental restoration, she specializes in advanced prosthodontic treatments, including full mouth rehabilitation, implant prosthodontics, and maxillofacial prosthetics. After completing her MDS in Prosthodontics from Banaras Hindu University (BHU), Varanasi, she has continuously contributed to both academic and clinical spheres. Dr. Deepika’s expertise lies in implantology, smile designing, and treatment of edentulous patients, and she is also known for her clinical work on complex maxillofacial prosthetics in post-surgical carcinoma and mucormycosis cases. Along with her clinical practice, Dr. Deepika is highly active in research, having published multiple papers on implant stability, bone regeneration, and tactile sensibility.

Online Profiles

Google Scholar Profile

  • Total Citations: 18

  • h-index: 3

  • i10-index: 0

  • Citations Since 2020: 18
    These numbers reflect steady engagement with her work, particularly in clinically relevant areas such as implant loading protocols, maxillofacial prosthodontics, and denture fabrication techniques. Her publications have been cited in peer-reviewed journals, case series, and literature reviews by both domestic and international researchers. With consistent contributions and interdisciplinary collaborations, her research impact is expected to grow further.

Dr. Kumari Deepika is an active member of the ResearchGate community where she shares her research findings and connects with fellow researchers globally. Her ResearchGate H-index of 3 reflects the growing recognition of her contributions to Prosthodontics and Implantology. She has also presented her work at several national and international platforms, and her contributions are highly regarded by peers in the field. Apart from being a Life Member of the Indian Prosthodontic Society (IPS), she is also a member of the Indian Society of Prosthodontics – Restorative – Periodontics (ISPRP), where she engages in continuous learning and development. Through her profiles and online engagements, Dr. Deepika promotes evidence-based practice and advances the field of prosthodontics.

Education

Dr. Deepika’s academic journey began with her Bachelor of Dental Surgery (BDS), which she completed in 2014 from Himachal Institute of Dental Sciences, Paonta Sahib, securing a commendable 70.9%. She was consistently a top performer throughout her education, earning a Gold Medal for securing First Position in BDS at HP University, Shimla. Her academic excellence continued during her Master of Dental Surgery (MDS) in Prosthodontics at the Faculty of Dental Sciences, Institute of Medical Sciences, Banaras Hindu University, Varanasi, where she graduated with a score of 76.8% in 2019. Throughout her academic career, Dr. Deepika maintained a keen interest in research and was highly involved in hands-on clinical training, which further solidified her expertise in prosthodontics and implantology.

Research Focus

Dr. Kumari Deepika’s primary research focus is on prosthodontics, particularly in the areas of implantology, bone regeneration, and maxillofacial prosthetics. Her research aims to bridge the gap between clinical practice and innovative treatment modalities, such as immediate implant loading protocols and guided bone regeneration (GBR). She has explored the impact of these techniques on implant stability, osseointegration, and tactile sensibility in partially edentulous patients. Another key area of her research is the development of advanced prosthetic solutions for complex maxillofacial defects, including post-surgical rehabilitation in cases of oral carcinoma and mucormycosis. Through her work, she strives to improve treatment outcomes for patients suffering from severe dental and facial deformities.

Experience

Dr. Kumari Deepika has accumulated significant clinical and academic experience over the years. She is currently an Assistant Professor at AIIMS-CAPFIMS, New Delhi, where she is involved in both teaching and clinical supervision of dental students and residents. Prior to this, she served as a Reader at I.T.S Dental College, Ghaziabad, where she taught postgraduate students and guided them through complex clinical procedures in prosthodontics. From June 2020 to May 2023, Dr. Deepika worked as a Senior Resident at Maulana Azad Institute of Dental Sciences, New Delhi, further enhancing her skills in managing prosthodontic cases involving implants and full mouth rehabilitation. Her expertise in clinical practice is complemented by her postgraduate education from BHU, where she specialized in advanced implant prosthodontics and rehabilitation.

Research Timeline & Activities

Dr. Deepika’s research activities span over a period of several years, starting with her postgraduate dissertation on implant stability and tactile sensibility in patients receiving immediate versus delayed implant loading protocols. She has also investigated the use of guided bone regeneration (GBR) techniques for bone augmentation in the esthetic zone and has contributed to the understanding of implantsupported overdentures for patients with severely resorbed alveolar ridges. Over the years, she has expanded her research into maxillofacial prosthetics, focusing on the rehabilitation of patients with maxillectomy defects following oral cancer surgery and mucormycosis. Dr. Deepika is currently involved in ongoing research regarding the reversal of osseodisintegration in dental implants, which has the potential to significantly impact the field of implantology. Her research timeline includes multiple in-vivo studies, clinical case reports, and systematic reviews that contribute to both academic and practical advancements in prosthodontics.

Awards & Honors

Dr. Kumari Deepika has been the recipient of several prestigious awards throughout her academic and professional career. In recognition of her outstanding academic achievements, she was awarded Gold Medals for securing First Position in BDS by HP University, Shimla. She has also been honored with the Raj Mata Shanti Devi Award and the Hans Rattan Lakhanpal Award by the university. In addition, she was recognized by the Jawaharlal Nehru Memorial Fund, New Delhi, for her exemplary performance in BDS. Most recently, Dr. Deepika was conferred the WCOI Diplomate Bronze Award in November 2024 for her exceptional contributions to the field of Implantology. These accolades reflect her commitment to excellence in both academia and clinical practice.

Top Noted Publication

One of Dr. Deepika’s most notable publications is “Reversal of Osseodisintegration: An Asset for Implantology”, published in the International Journal of Research and Reports in Dentistry in 2025. This pioneering work examines the possibility of reversing osseointegration failure in dental implants, which could revolutionize the way dental implants are managed in cases of early implant failure. In addition, her publication titled “Hollowing of Delayed Surgical Obturator in Maxillectomy Defects Secondary to Mucormycosis” (2022) has been widely cited for its innovative approach to managing post-surgical oral rehabilitation in the post-COVID-19 era. Dr. Deepika has contributed extensively to research on guided bone regeneration, implant stability, and maxillofacial prosthetics, all of which are pivotal to the advancement of clinical practice in Prosthodontics.

Among her numerous publications, Dr. Deepika’s most significant contribution is the original research article titled “Evaluation of active tactile sensibility in a single-tooth implant opposing a natural tooth with either an immediate or delayed functional loading protocol”, published in the prestigious Journal of Prosthetic Dentistry in 2023. This clinical study provided valuable insight into neurosensory feedback mechanisms around implants and has been cited in ongoing research on osseoperception. It highlights her expertise in designing and conducting clinical trials with real-world applications in patient rehabilitation and prosthodontic treatment planning.

Fabrication of Complete Dentures Using Neutral Zone Technique in a Patient with Severely Resorbed Alveolar Ridges – A Case Report
Kumari Deepika, Atul Bhatnagar, Ankita Singh
International Journal of Health Sciences & Research, 2018; 8(4): 227–232
Citations: 5
This case report highlights the effectiveness of the neutral zone technique in restoring function and esthetics in patients with severely resorbed ridges. It is widely cited for its clinical relevance in complex denture fabrication scenarios.

Application of Polyvinyl Chloride Sheet as Delayed Surgical Obturator in Maxillectomy Defects Secondary to Mucormycosis – A Case Series
Kumari Deepika, Shefali Goel, Rekha Gupta
Journal of Oral Biology and Craniofacial Research, 2023; 13: 207–209
Citations: 3
This publication presents an innovative, cost-effective approach using PVC sheets for obturator fabrication in post-mucormycosis patients. It has gained recognition for its practicality in resource-limited settings.

Modified Extraoral Retentive Technique for Retaining Obturator in Bilateral Maxillectomy Defects Secondary to Mucormycosis in Healing Phase
Kumari Deepika, Rekha Gupta
International Journal of Prosthodontics & Restorative Dentistry, 2022; 12(1): 30–35
Citations: 3
This article introduces a unique extraoral retentive strategy for maxillofacial prosthetic retention during the healing phase, offering enhanced patient comfort and prosthesis stability.

Management of Feeding Problems in Infants with Cleft Palate and Review on Pierre-Robin Syndrome
Kumari Deepika, Atul Bhatnagar, Richa Bansal, Ankita Verma
Journal of Multidisciplinary Dental Research, 2022; 8(1): 33–37
Citations: 3
This paper reviews challenges in feeding infants with cleft conditions and outlines effective prosthetic and non-invasive feeding aids, contributing to neonatal care strategies.

Rehabilitation of a Hemi-Maxillectomy Patient with a Cast Partial Obturator Prosthesis – A Clinical Report
Kumari Deepika, Aprajita, Atul Bhatnagar
International Journal of Advanced Research, 2018; 6(1): 317–320
Citations: 2*
Focused on the prosthetic management of post-maxillectomy defects, this clinical report showcases the use of cast partial frameworks in maxillofacial rehabilitation. It is often referenced in case-based prosthodontic literature.

Strengths for Best Innovator Award

1. Pioneering Use of Polyvinyl Chloride in Maxillofacial Obturators

Dr. Kumari Deepika introduced a cost-effective innovation by utilizing polyvinyl chloride (PVC) sheets for the fabrication of delayed surgical obturators in maxillectomy defects secondary to mucormycosis. This method provided a durable, hygienic, and affordable alternative to conventional materials and has shown high adaptability in low-resource settings, improving the quality of care for underprivileged patients.

2. Advancement of Neurosensory-Based Implant Protocols

In her publication in the Journal of Prosthetic Dentistry, Dr. Deepika clinically evaluated active tactile sensibility around dental implants, comparing immediate versus delayed loading protocols. Her work is among the few Indian contributions addressing osseoperception, bridging sensory neurology with implant prosthodontics, and influencing how implant rehabilitation is approached in clinical practice.

3. Modified Extraoral Retentive Technique for Maxillectomy Prosthesis

She developed and documented a modified extraoral retentive technique for retaining obturators in bilateral maxillectomy defects during the healing phase. This approach eliminated intraoral retention limitations in compromised anatomy, offering better patient compliance and hygiene maintenance, especially critical in post-COVID mucormycosis cases.

4. Integration of Digital and Conventional Prosthodontics

Dr. Deepika has consistently promoted hybrid prosthodontic workflows, integrating digital scanning, planning, and 3D design with traditional prosthetic techniques. Her research and teaching focus on implementing “Scan-Plan-Design-Print” digital workflows have prepared postgraduate students and clinicians for transitioning into evidence-based digital prosthodontics.

5. Multidisciplinary Approach to Pediatric Cleft Care

In her research on managing feeding difficulties in infants with cleft palate and Pierre-Robin syndrome, Dr. Deepika emphasized a multidisciplinary prosthetic approach. By customizing feeding plates and collaborating with pediatricians and speech therapists, she has improved the survival, nutrition, and early development of neonates with craniofacial deformities.

Pradeep Mishra, Engineering, Best Innovator Award

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Dr. Pradeep Mishra: Senior Assistant Professor at VIT Bhopal University, India

Dr. Pradeep Kumar Mishra is an accomplished researcher and academic leader with over 16 years of experience in the fields of Artificial Intelligence and Machine Learning. He currently holds the position of Program Chair and Head of the Department of AI & ML at VIT Bhopal University. His expertise spans a wide array of topics, including neural networks, deep learning, and environmental data modeling. He has contributed extensively to both theoretical research and practical applications, publishing numerous articles in high-impact journals and securing multiple patents. Known for his dedication to mentoring students and fostering innovation, Dr. Mishra actively collaborates with national and international research communities.

Online Profiles

Google Scholar Profile

Dr. Pradeep Kumar Mishra has a strong and growing research impact, with a total of 497 citations across his publications. His work has earned him an h-index of 8 and an i10-index of 7, reflecting the consistent quality and relevance of his research. Additionally, his collaborative and interdisciplinary papers have contributed 252 citations, with an h-index of 5 and an i10-index of 4 in those areas. These metrics highlight Dr. Mishra’s influence within the academic community and his role in advancing AI and environmental modeling research.

Education

Dr. Mishra earned his PhD in Computer Science and Engineering from Chhattisgarh Swami Vivekanand Technical University in 2021, where his dissertation focused on AI-based environmental modeling. Prior to this, he completed his Master of Engineering (M.E.) in Computer Technology and Applications in 2008 with a specialization in software engineering and data analytics. His Bachelor of Engineering (B.E.) in Computer Science and Engineering was completed in 2005, where he graduated with honors. Throughout his academic journey, Dr. Mishra consistently demonstrated strong analytical skills and a passion for interdisciplinary research combining computer science with real-world applications.

Research Focus

Dr. Mishra’s research centers on leveraging artificial intelligence and machine learning to solve complex problems in environmental modeling, computer vision, and IoT systems. He has extensively worked on rainfall-runoff modeling using soft computing techniques, aiming to improve water resource management and disaster prediction. His work in computer vision includes image processing and pattern recognition, applying deep learning frameworks to automate industrial and agricultural monitoring. Additionally, he explores secure cryptographic protocols and data privacy measures for IoT devices. His innovative research integrates theoretical models with practical tools to enhance efficiency and accuracy across multiple domains.

Experience

With over 16 years of experience, Dr. Mishra has held key academic positions including Assistant Professor, Associate Professor, and Department Head. He has taught undergraduate and postgraduate courses in AI, machine learning, data structures, and software engineering at various institutions. Beyond teaching, he has been instrumental in designing curriculum frameworks, coordinating academic programs, and leading departmental research initiatives. Dr. Mishra has also organized workshops and faculty development programs, fostering a collaborative learning environment. His leadership roles have enhanced departmental visibility and student engagement, preparing future engineers and researchers for evolving technological landscapes.

Research Timeline & Activities

Dr. Mishra began his research career focusing on neural networks and cryptographic security protocols in the early 2010s. By mid-decade, his interests expanded toward AI-driven environmental modeling, particularly rainfall-runoff analysis using machine learning algorithms. In recent years, he has emphasized deep learning applications in IoT-enabled automation and smart monitoring systems. Throughout his career, Dr. Mishra has authored more than 50 research papers in peer-reviewed journals and conferences, with several articles indexed in SCI and Scopus. He has also been an active reviewer and editorial board member for multiple international journals. His research projects are often interdisciplinary, involving collaborations with environmental scientists, engineers, and data analysts.

Awards & Honors

Dr. Mishra’s dedication to teaching and research excellence has been recognized through various awards. In 2019, he received the “Excellence Teacher” award under the prestigious SRIJAN initiative by the Government of Chhattisgarh, honoring his impactful contributions to education. Earlier in his career, he was awarded the best paper at TECHNOVISION 2007 for his innovative research in cryptography. He has also been invited as a keynote speaker and session chair at multiple international conferences, further acknowledging his expertise and leadership in AI and engineering fields.

Top Noted Publication

Among Dr. Mishra’s numerous publications, “Soft Computing Techniques for Rainfall-Runoff Modeling and Analysis in River Basin,” published in Water Resources Management (Springer, 2025), stands out as a seminal work. This paper presents novel hybrid AI models that significantly enhance the accuracy of hydrological predictions, addressing critical challenges in water resource management. The publication, with an impact factor of 3.9, has garnered considerable citations and is frequently referenced by researchers in environmental science and engineering. This work exemplifies Dr. Mishra’s commitment to applying advanced computational methods to real-world problems, bridging the gap between theory and practical implementation.

  • Agrawal, M., & Mishra, P. (2012). A comparative survey on symmetric key encryption techniques. International Journal on Computer Science and Engineering, 4(5), 877.
    Citations: 349

  • Mishra, P., & Agrawal, M. (2012). A modified approach for symmetric key cryptography based on Blowfish algorithm. International Journal of Engineering and Advanced Technology (IJEAT), 1(6).
    Citations: 48

  • Mishra, P. K., & Karmakar, S. (2019). Performance of optimum neural network in rainfall–runoff modeling over a river basin. International Journal of Environmental Science and Technology, 16, 1289–1302.
    Citations: 20

  • Soni, H., & Mishra, P. K. (2013). Congestion control using predictive approach in mobile ad hoc network. International Journal of Soft Computing and Engineering (IJSCE), ISSN 2231-2307.
    Citations: 11

  • Shukla, S., & Mishra, P. (2010). A hybrid model of multimodal biometrics system using fingerprint and face as traits. IJCSES, 1(2).
    Citations: 11

Strengths for the Best Innovator Award

  1. Pioneering AI-Driven Environmental Modeling
    Dr. Mishra has demonstrated exceptional innovation in applying artificial intelligence and machine learning to environmental problems, particularly in rainfall-runoff modeling and water resource management. His hybrid AI models significantly enhance prediction accuracy, showing a clear impact on sustainable environmental solutions.

  2. Interdisciplinary Research and Collaboration
    His ability to integrate computer science with environmental science, IoT, and cryptography reflects a strong interdisciplinary approach. This fosters innovation across diverse fields, enabling practical applications that address real-world challenges and contribute to academic and industrial advancements.

  3. Patented Technologies and Practical Implementations
    Dr. Mishra’s research goes beyond theory, including the development of patented methods and tools in cryptography, AI, and IoT security. This focus on translating research into practical, usable technologies highlights his innovative mindset and entrepreneurial spirit.

  4. Leadership in Academic Program Development and Mentorship
    Serving as Program Chair and Department Head, Dr. Mishra has driven innovation in curriculum design and research initiatives, nurturing the next generation of engineers and researchers. His commitment to mentoring students and fostering creativity is a cornerstone of his innovative contributions.

  5. Recognition and Influence in the Research Community
    With over 497 citations, a solid h-index, and awards such as the Excellence Teacher Award and best paper recognitions, Dr. Mishra is a well-respected innovator. His keynote speaking engagements and editorial roles amplify his impact and leadership in advancing cutting-edge AI and machine learning research.

Duggirala Mitra, Engineering, Best Innovator Award

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Dr. Duggirala Mitra: Deputy Manager at JSW Steel ltd, India

Dr. Duggirala Mitra

  • Current Role/Designation: Deputy Manager

  • Organization: JSW Steel Ltd

  • Country: India

  • Subject Track: Engineering

  • Key Areas of Expertise: Mineral Process Engineering, Beneficiation of Lean Grade Ores

  • Award Categories: Best Innovator Award

Dr. Duggirala Vijaya Mitra is an accomplished mineral process engineer with a strong background in iron ore and coal beneficiation, tailings utilization, and sustainable mineral technologies. He holds a Ph.D. in Mineral Process Engineering from Andhra University College of Engineering and currently works as Deputy Manager in the Research and Development Department at JSW Steel Ltd. Over the years, Dr. Mitra has established himself as a dedicated researcher with a passion for industrial innovation, particularly in upgrading low-grade ores and repurposing tailings for commercial use. His work bridges the gap between academic research and practical application, with a proven record of delivering impactful projects, publishing scientific articles, and presenting at reputed conferences.

Online Profiles

Google Scholar Profile

Education

Dr. Mitra earned his Ph.D. in Mineral Process Engineering from Andhra University College of Engineering on 14th February 2023. His doctoral research was focused on optimizing beneficiation techniques for iron ore and coal, exploring the integration of advanced separation technologies such as gravity and magnetic separation following fine grinding. During his academic career, he developed a deep understanding of complex mineral systems, process engineering fundamentals, and analytical methods used in metallurgical research. This strong educational foundation equipped him to transition smoothly into industrial R&D, where he now applies these principles to large-scale mineral processing challenges.

Research Focus

Dr. Mitra’s primary research interests lie in the beneficiation and sustainable utilization of iron ore and coal tailings. He focuses on improving the grade, yield, and recovery of valuable minerals using methods such as grinding, gravity separation, flotation, and magnetic separation. A key area of his work involves developing eco-friendly processing techniques that minimize environmental impact while maximizing resource recovery. He is also actively engaged in repurposing mineral tailings for industrial applications such as cement additives, construction materials, and fillers, thereby aligning his research with circular economy principles. His work aims to make mineral processing more efficient, sustainable, and economically viable.

Experience

Currently working as Deputy Manager at JSW Steel Ltd, Dr. Mitra has over 3 years of experience in industrial research and development. His role involves leading mineral beneficiation projects, designing process flowsheets, conducting lab and pilot-scale trials, and generating techno-commercial solutions for raw material optimization. Prior to this, he held positions such as Senior Research Fellow, Junior Research Fellow, and Project Assistant, contributing to both academic and industrial research in mineral engineering. He has successfully handled multi-disciplinary projects that involve team coordination, experimental design, process modeling, and data interpretation. His career has been marked by a commitment to translating theoretical research into practical, scalable industrial outcomes.

Research Timeline & Activities

Between 2018 and 2025, Dr. Mitra has actively engaged in a wide range of research activities, starting from coal flotation and hydrotrope applications during his early academic years to advanced iron ore beneficiation during his doctoral and industrial tenure. His timeline includes the development of process routes for enhancing Fe recovery, use of starch-based depressants in reverse flotation, and optimization of grinding media for pellet feed preparation. He has participated in more than 10 national and international conferences, delivering presentations on sustainable processing and novel separation techniques. His recent research includes studies on thickener performance, flocculent efficiency, and reuse of tailings in value-added products, showing a clear progression toward sustainable mineral resource management.

Awards & Honors

Dr. Mitra’s career progression and research visibility demonstrate a high level of recognition in his field. His promotion to Deputy Manager in a top-tier organization like JSW Steel Ltd and repeated invitations to present at international conferences in the UK and India highlight his standing as a trusted expert in mineral processing. He has received appreciation from both academic mentors and industrial leaders for his contributions to process improvement, cost reduction, and sustainability. His research has also been featured in reputed journals and proceedings, further cementing his credibility in the mineral engineering domain.

Top Noted Publication

Among his notable contributions, the paper titled “Sustainable Iron Ore Tailings Management through Reprocessing”, published in the Transactions of the Indian Institute of Metals on July 19, 2025, stands out as a key achievement. This publication outlines a strategic approach to managing and reprocessing iron ore tailings using a combination of gravity and magnetic separation methods. The study demonstrated significant improvements in Fe recovery and grade enhancement, with practical implications for the pellet plant feed preparation. This work not only addressed technical challenges but also emphasized environmental responsibility, making it a reference point for both researchers and practitioners in mineral processing.

Enhanced Recovery by Hydrotropes in Oxidized Coal Flotation
Duggirala Vijaya Mitra, Ch Asha Immanuel Raju, T Gouri Charan
International Journal of Renewable Energy and its Commercialization, Volume 7, Issue 1, Pages 19–23, Published on 20th June 2021.

This study explores the role of hydrotropes, specifically sodium benzoate, as activators in the flotation of oxidized coal. Traditional flotation techniques often struggle with low-grade fines; however, this research demonstrates that the use of hydrotropes significantly enhances the recovery and quality of the concentrate. The recovery rate increased from 12.8% under standard plant conditions to 31% with the addition of sodium benzoate, while the ash content in the concentrate was reduced from 22.21% to 18.60%. Hydrotropes, which are amphiphilic molecules that improve solubility without forming micelles, were found to aid in the effective dispersion and attachment of particles during flotation. The results highlight the potential of hydrotropes to improve both yield and efficiency in coal beneficiation processes.

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.

Anand G, Engineering, Best Innovator Award

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Dr. Anand G: Associate Professor & Head at Achariya College of Engineering Technology, India

Title/Designation: Dr.
Name: Anand G
Current Role/Designation: Associate Professor & Head
Organization/Institution: Achariya College of Engineering Technology
Country: India
Subject Track: Engineering
Key Areas of Expertise: Composite Materials, Advanced Welding Process
Award Categories: Best Innovator Award

Dr. G. Anand is an accomplished Associate Professor and Head of the Mechanical Engineering Department at Achariya College of Engineering Technology, Puducherry. With a Ph.D. in Mechanical Engineering and over a decade of combined teaching and research experience, he is recognized for his expertise in composite materials, advanced manufacturing techniques, and intelligent manufacturing systems. Dr. Anand actively contributes to academia by mentoring students, leading research projects, and managing training and placement activities. His dedication to fostering innovation and academic excellence has earned him a prominent position within the engineering education community.

Online Profiles

Google Scholar Profile

Dr. G. Anand has a total of 828 citations on Google Scholar and 802 citations on ResearchGate, reflecting the impact of his research work in the field of mechanical engineering. He holds an h-index of 16 and an i10-index of 20 on both platforms, indicating consistent contributions to high-quality publications and scholarly influence.

Education

Dr. Anand earned his Ph.D. in Mechanical Engineering from Pondicherry Engineering College in 2018, where his research focused on the synthesis, characterization, and testing of vinyl ester composites reinforced with glass fiber coated with Ni-P and Al₂O₃ nanowires. He also completed a Master’s degree in Product Design and Manufacturing with an outstanding CGPA of 8.98/10, and a Bachelor’s degree in Mechanical Engineering. Complementing his formal education, he completed an AICTE QIP certification program on IoT and Manufacturing at IIT BHU, enhancing his expertise in emerging manufacturing technologies and digital integration.

Research Focus

Dr. Anand’s research is primarily centered on developing advanced composite materials and innovative manufacturing processes aimed at improving performance and sustainability. His interests include drug-eluting orthopedic composite implants, electroless coating processes for corrosion resistance, additive manufacturing, friction stir processing, and machining of composites using both conventional and non-conventional methods. Additionally, he integrates artificial intelligence techniques like fuzzy logic and artificial neural networks to optimize manufacturing processes, contributing to intelligent manufacturing systems and Industry 4.0 initiatives.

Experience

Over the last 10 years, Dr. Anand has progressively advanced through academic roles, starting as a Guest Faculty and Research Assistant at Pondicherry Engineering College, moving on to Assistant Professor roles, and currently serving as Associate Professor and Head of Department at Achariya College of Engineering Technology. His teaching portfolio spans a broad spectrum of mechanical engineering subjects including manufacturing technology, machining processes, composite materials, and engineering metallurgy. Dr. Anand has also played key roles in curriculum design, research supervision, and organizing workshops to elevate the educational experience and research output of his institutions.

Research Timeline & Activities

Since completing his doctorate in 2018, Dr. Anand has been prolific in research output, publishing papers in reputed peer-reviewed international journals with notable impact factors. He has been instrumental in organizing multiple government-funded faculty development programs, workshops, and training sessions that focus on emerging trends such as AI in manufacturing, renewable energy integration, and advanced medical manufacturing techniques. His ongoing commitment to professional development is evidenced by his pursuit of certification programs and active involvement in interdisciplinary collaborative research projects.

Awards & Honors

Dr. Anand’s work has been recognized and financially supported by several prestigious government agencies including AICTE and MSME Technology Center. His leadership in organizing faculty development programs and workshops on cutting-edge research themes demonstrates his commitment to enhancing academic quality and research integrity. These recognitions highlight his reputation as an educator and researcher dedicated to advancing engineering education and fostering innovation in manufacturing.

Top Noted Publication

Among his numerous impactful publications, the paper titled “Mechanical strength and swelling resistance enhancement in Ethylene-Propylene-Diene Monomer/Styrene-Butadiene rubber nanocomposites using 1-Octadecanol-Modified carbon nanotubes,” published in the Journal of Polymer Research (Springer, 2025; Impact Factor 2.9), stands out. This work addresses critical improvements in nanocomposite materials, offering insights into enhanced mechanical performance and durability, which have broad implications for industrial applications in automotive, aerospace, and biomedical sectors.

  • Investigation of drilling parameters on hybrid polymer composites using grey relational analysis, regression, fuzzy logic, and ANN models
    G Anand, N Alagumurthi, R Elansezhian, K Palanikumar
    Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2018
    This highly cited work (101 citations) explores the optimization of drilling parameters in hybrid polymer composites using advanced statistical and AI models, improving manufacturing efficiency and composite integrity.

  • Effect of nanoclay/nanosilica on the mechanical properties, abrasion and swelling resistance of EPDM/SBR composites
    S Vishvanathperumal, G Anand
    Silicon, 2020
    Cited 89 times, this study investigates how nanoclay and nanosilica fillers enhance the mechanical durability and resistance properties of rubber composites, relevant for automotive and industrial applications.

  • Effect of nanosilica on the mechanical properties, compression set, morphology, abrasion and swelling resistance of sulphur cured EPDM/SBR composites
    S Vishvanathperumal, G Anand
    Silicon, 2022
    This publication (76 citations) expands on the role of nanosilica in improving the structural and functional behavior of rubber blends, a key contribution in polymer nanocomposite research.

  • Effect of Nanosilica and Crosslinking System on the Mechanical Properties and Swelling Resistance of EPDM/SBR Nanocomposites with and without TESPT
    S Vishvanathperumal, G Anand
    Silicon, 2021
    With 73 citations, this paper studies the interaction of nanosilica and crosslinking agents on nanocomposite performance, providing insights into composite formulation techniques.

  • Properties of SBR/NR Blend: The Effects of Carbon Black/Silica (CB/SiO2) Hybrid Filler and Silane Coupling Agent
    G Anand, S Vishvanathperumal
    Silicon, 2022
    Cited 71 times, this research focuses on hybrid fillers in rubber blends and their effect on mechanical and swelling characteristics, aiding the design of durable elastomer materials.

Shruti Patel, Pharmacology, Best Innovator Award

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Dr. Shruti Patel: Assistant professor at Parul Institute of Pharmacy, Parul University, India

Title/Designation: Dr.
Name: Shruti Patel
Current Role/Designation: Assistant Professor
Organization/Institution: Parul Institute of Pharmacy, Parul University
Country: India
Subject Track: Pharmacology
Award Categories: Best Innovator Award

Dr. Shruti Jagdishbhai Patel is a highly motivated and accomplished academician and researcher in the field of pharmaceutical sciences, with a specialization in nanotechnology-based drug delivery systems. She currently serves as an Assistant Professor in the Department of Pharmaceutics at Parul Institute of Pharmacy, Parul University, Vadodara, India. With over seven years of academic and research experience, she has demonstrated excellence in teaching, research, and innovation. Her core research interests lie in the development of novel polymeric and lipid-based nanocarriers for the targeted delivery of therapeutic agents, particularly in oncology and inflammatory diseases. Through her work, she strives to bridge the gap between laboratory research and clinical application, and has made significant contributions through her publications, patents, funded projects, and mentorship. Dr. Patel has also been recognized for her academic achievements, including receiving the Best Ph.D. Thesis Award and the Best Research Performance Award in 2024.

Online Profiles

Google Scholar Profile

Dr. Shruti Patel has a steadily growing academic impact, as evidenced by her Google Scholar metrics. She has accumulated a total of 169 citations, with 112 citations since 2020, reflecting the relevance and ongoing influence of her work in recent years. Her h-index is 7, indicating that at least seven of her publications have been cited seven or more times, and her i10-index is 4, with three of those articles published since 2020 receiving at least ten citations each. These metrics highlight her meaningful contribution to pharmaceutical nanotechnology and underscore the scholarly value of her research in drug delivery and formulation sciences.

Education

Dr. Patel’s academic journey reflects a consistent trajectory of excellence and specialization in pharmaceutics. She earned her Ph.D. in 2023 from Parul University, with a thesis focused on the “Development of Novel Colloidal Drug Delivery Systems Using a Quality by Design (QbD) Approach,” under the mentorship of Dr. Asha Patel. Her research was recognized as the Best Ph.D. Thesis by Parul University, acknowledging both the scientific merit and practical applicability of her work. Prior to her doctorate, she obtained her M.Pharm in Pharmaceutics in 2016 from Gujarat Technological University with a distinction grade, demonstrating a strong understanding of formulation science and advanced drug delivery systems. She began her academic foundation with a B.Pharm degree from the same university in 2014, graduating with an impressive 8.17 CGPA. Her formal education has been instrumental in building a solid foundation in formulation science, nanotechnology, pharmacokinetics, and QbD methodologies.

Research Focus

Dr. Patel’s research expertise centers around the design and development of advanced nanocarrier systems for site-specific and sustained drug delivery. Her work includes the formulation of functionalized nanomicelles, self-assembled protein nanoparticles, liposomes, and polymeric nanocarriers for the treatment of diseases like lung cancer, breast cancer, Alzheimer’s, psoriasis, and ocular disorders. A distinctive aspect of her research is the incorporation of Quality by Design (QbD) and chemometric tools for optimization and predictive modeling of drug formulations. She also explores surface modification techniques such as ligand conjugation (e.g., folate, lactoferrin, avidin-biotin) to enhance targeting and therapeutic outcomes. Her interdisciplinary approach integrates pharmaceutical sciences, biomedical engineering, and material sciences, and reflects a commitment to innovation in drug delivery and personalized medicine.

Experience

Dr. Patel has accumulated nearly eight years of academic and research experience at Parul University, where she has contributed extensively as an Assistant Professor in the Department of Pharmaceutics since July 2017. In her role, she teaches core subjects related to pharmaceutics, nanotechnology, and advanced drug delivery systems at both undergraduate and postgraduate levels. She has been instrumental in establishing a research culture within her department, actively engaging in curriculum development, laboratory coordination, and academic audits. Beyond classroom teaching, she has supervised several postgraduate dissertations and is currently guiding a Ph.D. scholar working on lipid nanocarriers for colorectal cancer therapy. Her contributions also extend to research proposal writing, handling of funded projects, peer-reviewing journal manuscripts, and participating in scientific committees. She is known for her strong work ethic, leadership in research execution, and mentorship qualities.

Research Timeline & Activities

Dr. Patel’s research timeline showcases a steady and impactful progression from postgraduate research to becoming a principal investigator in funded projects. During her Ph.D., she worked on a prestigious AICTE-RPS funded project focusing on block co-polymeric micelles for lung cancer therapy. She successfully transformed this work into multiple peer-reviewed publications, a national patent, and a prestigious thesis award. Following her doctoral work, she expanded her research into protein nanocarriers, surface-functionalized liposomes, and chemometric modeling. Between 2018 and 2024, she supervised over seven postgraduate students on cutting-edge topics including CAR-M therapy for Alzheimer’s, dry powder inhalers for lung disease, and lipid-based ophthalmic formulations. She has authored 19 research papers with a cumulative impact factor of 35.66 and has applied for 9 patents (1 granted). She also led and contributed to grant proposals for GSBTM and DST, securing significant research funding, and has become a recognized figure in pharmaceutical nanotechnology research.

Awards & Honors

Dr. Shruti Patel has received significant recognition for her scientific and academic contributions. In 2024, she was honored with the Best Ph.D. Thesis Award by Parul University, a distinction that reflects the novelty, execution, and impact of her doctoral research. In the same year, she received the Best Overall Research Performance Award from the university, acknowledging her consistent research output, patent filings, project leadership, and scholarly publications. Her research proposal on antibody-targeted nanotheranostics was awarded a major grant by the Gujarat State Biotechnology Mission (GSBTM), demonstrating her ability to conceptualize and lead high-value research initiatives. Her accolades reflect both individual excellence and her contribution to the broader scientific community.

Top Noted Publication

Among her 19 research articles, one of Dr. Patel’s most cited and widely recognized papers is “Development of surface-conjugated block co-polymeric micelles as targeted therapeutics: characterization and in-vitro cell viability,” published in the Journal of Polymer Research (Springer, Impact Factor: 3.061). This work highlighted the design of micelle-based nanocarriers for targeted cancer treatment and provided in-depth in vitro analysis, making it a significant contribution to the field. Another landmark publication is her collaborative work on avidin-biotin functionalized nanoparticles for EGFR-targeted lung cancer therapy, published in Journal of Dispersion Science and Technology. She has also co-authored high-impact reviews in Journal of Drug Targeting (IF: 4.3) and Current Drug Targets (IF: 3.5), which reflect her diverse capabilities in both experimental and theoretical domains. These publications collectively strengthen her position as a leading researcher in advanced drug delivery systems.

  • “Religions and international poverty alleviation: The pluses and minuses”, co-authored with JP Martin and J Chau, was published in the Journal of International Affairs and has received 36 citations since 2007. This article explores the role of religious institutions in global poverty initiatives and remains relevant in development studies.

  • Her recent nanotechnology-focused paper, “Zeolite-based nanoparticles drug delivery systems in modern pharmaceutical research and environmental remediation”, published in Heliyon (2024), has already gathered 19 citations, reflecting rapid academic uptake in pharmaceutical sciences and environmental health.

  • In the field of religious studies, her solo-authored work titled “Beyond the lens of reform: Religious culture in modern Gujarat”, published in The Journal of Hindu Studies, has attracted 14 citations and contributes significantly to understanding the interplay between religious tradition and modernity in Indian society.

  • The article “Road use pattern and street crossing habits of schoolchildren in India”, published in Frontiers in Public Health in 2021, has received 10 citations, demonstrating her engagement with public health and child safety.

  • Another noteworthy contribution includes her co-authored paper “Bio-functional mesoporous silica nanoparticles as nano-structured carriers in cancer theranostic review”, published in Current Drug Targets (2023), which has already accumulated 8 citations, emphasizing her impactful work in cancer nanomedicine.

Rumman Mowla Chowdhury, Engineering, Best Innovator Award

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Dr. Rumman Mowla Chowdhury: Graduate Student at Rowan University, United States

  • Title/Designation: Dr.

  • Name: Rumman Mowla Chowdhury

  • Current Role/Designation: Graduate Student

  • Organization/Institution: Rowan University

  • Country: United States

  • Subject Track: Engineering

  • Award Categories: Best Innovator Award

Rumman Mowla Chowdhury is a highly experienced environmental engineer, specializing in hydrological modeling, flood risk assessment, and climate adaptation strategies. With over a decade of expertise in GIS, remote sensing, and environmental consultancy, he has contributed to a variety of high-impact projects in both academic and real-world settings. Currently a PhD Fellow in Civil & Environmental Engineering at Rowan University, Rumman leads cutting-edge research on flood vulnerability assessments, integrating machine learning and traditional hydrodynamic models. His academic pursuits are driven by a passion for addressing the challenges posed by climate change, particularly in vulnerable coastal regions and landfill facilities. Rumman’s work not only enhances environmental resilience but also contributes to policy decision-making through high-level technical analyses and stakeholder engagement.

Online Profiles

  • Total Citations: 260

  • Citations Since 2020: 178

  • h-index: 5

  • i10-index: 4

Education

  • Ph.D. in Civil & Environmental Engineering, Rowan University, NJ (Anticipated 2025)
    Currently pursuing a doctoral degree in Civil & Environmental Engineering, Rumman’s research is focused on integrating machine learning with hydrological modeling for flood risk assessment and climate adaptation in the northeastern United States. His doctoral work combines geospatial tools with flood modeling to enhance predictions and mitigation strategies.

  • M.Sc. in Water Resources Engineering and Management, University of Stuttgart, Germany (2014)
    Rumman’s master’s program emphasized the development of sustainable water management strategies, focusing on climate change impacts on water systems, hydrological modeling, and environmental protection. His thesis involved the integration of remote sensing and GIS for water resources management in arid and semi-arid regions.

  • B.Sc. in Civil Engineering, Bangladesh University of Engineering & Technology (BUET), Bangladesh (2011)
    During his undergraduate studies at BUET, Rumman acquired a solid foundation in civil engineering, with a focus on hydrology, water resources engineering, and environmental impact assessment. His early research laid the groundwork for his subsequent specialization in flood risk modeling and water quality management.

Research Focus

Rumman’s research bridges the fields of environmental engineering, GIS, and climate science, with a focus on applying advanced modeling techniques to assess and mitigate flood risks, water quality degradation, and climate-driven hazards. His work uses cutting-edge technologies like machine learning and remote sensing to model hydrodynamic systems and predict the impacts of extreme weather events on critical infrastructure, particularly in coastal and landfill regions. Rumman is particularly interested in how climate change influences groundwater salinity, sea-level rise, and floodplain dynamics. His approach combines both theoretical models and practical applications, contributing to climate adaptation strategies and sustainable environmental planning. By engaging with interdisciplinary teams, he ensures that his research informs both policy decisions and real-world engineering solutions.

Experience

Rumman has a diverse professional background that combines academic research, environmental consultancy, and hands-on teaching. As a PhD Fellow at Rowan University, he leads research on the vulnerability of landfill facilities to flooding, specifically using advanced hydrologic-hydraulic models to assess the impacts of climate-driven hazards on infrastructure. His previous role as a Climate Change Specialist for the UK Met Office in Bangladesh saw him guiding national climate resilience efforts by developing high-resolution vulnerability maps for coastal regions affected by sea-level rise and salinity intrusion. Additionally, he has served as an Assistant Professor at the University of Asia Pacific, where he mentored more than 20 students on GIS-based environmental modeling projects and taught various courses related to urban hydrology, environmental engineering, and remote sensing. This teaching experience was coupled with his work on environmental assessments, including a notable water quality study for a large power plant project. His career trajectory showcases his versatility in both academic and applied environmental science.

Research Timeline & Activities

  • 2023–Present: Rumman leads the USDA-funded research project on flood vulnerability assessment for landfill sites in New Jersey. This involves applying HEC-HMS/HEC-RAS models for hydrologic and hydraulic simulations and integrating them with machine learning techniques to assess the potential impacts of future climate scenarios on flood depth and infrastructure resilience.

  • 2021–2022: As a Climate Change Specialist with the Institute of Water Modelling, Rumman focused on GIS-based salinity and sea-level rise risk mapping for vulnerable coastal regions in Bangladesh. His work supported national adaptation policies, helping inform strategies for coastal zone management and disaster resilience.

  • 2020–2021: Rumman contributed to a water quality index study for the Faridpur-Barisal Corridor, a project under the Asian Development Bank, analyzing 34 water quality stations and providing insights into water management practices for urban and rural communities in Bangladesh.

  • 2012–2013: During his tenure as a research assistant for the Bangladesh Water Development Board (BWDB), Rumman worked on a hydro-morphological study of the Old Madhumati River. This involved using MIKE11 modeling to develop strategies for river rehabilitation, mapping erosion-prone zones, and advising on floodplain management.

Awards & Honors

Rumman’s contributions to the field of environmental engineering and climate adaptation have been recognized through numerous awards. Notably, he received the Outstanding Clinic Mentor Award from Rowan University in 2025 for his guidance of graduate students on applied environmental research projects. He also earned the NJWEA Presentation Grant in 2024, which supported his presentation on flood modeling at the NJ Water Environment Association conference. His ongoing research on flood risk and climate adaptation has been further recognized by the USDA, which named him a Research Fellow for their funded flood vulnerability study.

Top Noted Publication

  • Chowdhury, R.M., Ahn, J., Torlapati, J., Jahan, K. (2025). Enhancing Management of Flood Forecasting in Southern New Jersey: A HEC-HMS Model Development for Maurice River and Raccoon Creek Watersheds. Applied Water Science, 15(9), 1-24.

    • This paper presents an advanced flood forecasting model developed using HEC-HMS for flood prediction in Southern New Jersey’s Maurice River and Raccoon Creek Watersheds. The study aims to improve flood risk management strategies in the region, leveraging new modeling techniques.

  • Chowdhury, R., Jahan, K. (2024). Climate Change Impact on Municipal Landfills: An Integrated HEC-HMS and HEC-RAS Approach in Data-Scarce Cumberland and Gloucester Counties, New Jersey. AGU Fall Meeting Abstracts, 2024 (849), H43A-0849.

    • This abstract focuses on integrating HEC-HMS and HEC-RAS models to assess flood risks associated with climate change in municipal landfills, specifically in Cumberland and Gloucester counties. It addresses challenges of working in data-scarce regions and provides vital insights for local climate adaptation strategies.

  • Chowdhury, R.M., Mahmud, C.A., Alminara, M. (2024). Farmer’s Awareness on Climate Change and Needs for Adaptation: Case Study in Dinajpur and Feni Districts, Bangladesh.

    • This study explores the awareness and adaptation strategies of farmers in Bangladesh’s Dinajpur and Feni districts, focusing on climate change impacts and the community’s preparedness for agricultural shifts. The findings contribute to understanding local climate resilience efforts in rural areas.

  • Chowdhury, R.M. (2023). Existing Water Quality Scenario of Mirpur Water Supply and Distribution Network, North Dhaka City Corporation, Bangladesh. In Proceedings of the Waste Safe 2023 – 8th International Conference on Waste Management

    • This paper evaluates the current water quality conditions in the Mirpur water supply and distribution network, identifying key challenges in urban water management in Dhaka. The study informs policy makers on necessary improvements for water treatment and distribution.

  • Chowdhury, M.R.A., Mahmud, A. (2023). Farmer’s Awareness on Climate Change and Needs for Adaptation: Case Study in Dinajpur and Feni District, Bangladesh. 6th International Conference on Advances in Civil Engineering, 1035-1042.

    • This publication expands on the 2024 study, focusing on farmer awareness of climate change and adaptation needs. It provides additional analysis of regional agricultural practices and their sensitivity to shifting climatic conditions.

Sanjeev Kumar, Engineering, Best Innovator Award

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Asst. Prof. Sanjeev Kumar: Assistant Professor at IKGPTU KAPURTHALA, India

Sanjeev Kumar is an accomplished mechanical engineer and academic with a deep interest in both industrial applications and academic research. With over two decades of professional experience in the field, he has developed expertise in areas such as vendor development, procurement, quality control, and teaching. His current academic pursuit includes a PhD in Mechanical Engineering at Punjab Technical University, where his research is focused on Scratch Testing. Over the years, he has built a strong foundation in both practical industrial processes and cutting-edge engineering theories, which he applies to both teaching and research. Sanjeev is dedicated to bridging the gap between industry and academia, striving to enhance the skills of future engineers while advancing innovative technologies in mechanical engineering.

Online Profiles

Google Scholar Profile

Sanjeev Kumar actively maintains several online profiles, particularly on professional platforms like LinkedIn, where he shares his career milestones, research developments, and academic achievements. His profiles reflect his academic background, including his research in mechanical engineering, and highlight his expertise in areas such as vendor development, procurement, and materials testing. He also engages with a wide network of industry professionals and academics through these platforms, offering insights into his work and future research endeavors. These profiles serve as a valuable tool for collaboration, discussion, and networking with peers and colleagues in the field of mechanical engineering.

Education

Sanjeev Kumar is currently pursuing a PhD in Mechanical Engineering at Punjab Technical University (Jalandhar), focusing his research on Scratch Testing, an advanced material testing technique. Prior to this, he earned his Master of Engineering (M.E.) degree in Production & Industrial Engineering from Thapar University, Patiala, where he studied Stir Casting, an innovative method of casting for aluminum alloys. He holds a Bachelor’s degree in Mechanical Engineering from Saheed Bhagat Singh State University (Ferozepur). His academic career has been complemented by industrial training at notable companies such as Escorts Goetze India Ltd. and Purolator India Ltd., where he gained hands-on experience in mechanical engineering applications and industrial processes. His education has laid a strong foundation for his ongoing contributions to both the academic and industrial sectors.

Research Focus

Sanjeev’s research interests are rooted in improving material properties and manufacturing processes, particularly through Scratch Testing and Stir Casting. Scratch testing involves evaluating the resistance of materials to localized mechanical damage, and this research has applications in industries like automotive, aerospace, and manufacturing. Additionally, his work on Stir Casting focuses on enhancing the properties of composite materials by improving their casting processes. His broader research interests also include non-traditional machining methods, material research, and manufacturing innovations. These topics are critical in advancing the efficiency and effectiveness of mechanical manufacturing processes, and Sanjeev’s work contributes to bridging theoretical concepts with practical applications.

Experience

Sanjeev Kumar has an extensive and diverse professional background, which spans both the corporate world and academia. He began his career as a Graduate Engineer Trainee at Rollform Equipments Pvt. Ltd. (Ghaziabad), where he was involved in purchasing, vendor development, and quality control for equipment used in pipe and tube production. His next significant role was as an Executive – Purchase at Honda Siel Cars India Ltd. (Greater Noida), where he worked on procurement and vendor management for automotive parts. Following his industry experience, Sanjeev transitioned to academia, where he held teaching roles at various educational institutions. He served as a Lecturer in the Mechanical Engineering Department at Guru Teg Bahadur Khalsa Polytechnic College and later as an Assistant Professor at Bhai Gurdas Institute of Engineering and Technology (Sangrur). He also served as the Principal at Adarsh Polytechnic College (Patiala). Currently, he works as an Executive at JobJabs.com, where he focuses on professional development, recruitment, and career counseling for aspiring engineers.

Research Timeline & Activities

Sanjeev’s research journey has been marked by active involvement in both theoretical and practical aspects of mechanical engineering. His PhD research, currently focused on Scratch Testing, is aimed at improving material characterization for industrial applications. In addition to his ongoing doctoral research, Sanjeev has contributed to several academic conferences and seminars, including the National Conference on Innovative Development in Engineering Applications (2011, 2012), where he presented papers on non-traditional machining methods. His participation in workshops like Six Sigma Deployment at Rayat-Bahra College (2008) and Emerging Trends in Mechanical Engineering (2011) demonstrates his commitment to staying at the forefront of engineering advancements. He has also been actively involved in curriculum development and the adoption of new teaching methodologies in mechanical engineering.

Awards & Honors

Throughout his career, Sanjeev has been recognized for his contributions to the field of mechanical engineering. He is a Life Member of the Indian Society for Technical Education (ISTE), a professional body that honors contributions to technical education and research. His academic leadership in organizing and hosting national conferences and workshops has earned him accolades from various educational and professional organizations. His commitment to promoting the use of Information and Communication Technology (ICT) in engineering education and his innovative teaching methods have been widely appreciated. Furthermore, his work on non-traditional machining techniques and material science has led to recognition at national engineering forums and conferences.

Top Noted Publications

Sanjeev Kumar has made significant contributions to the body of knowledge in mechanical engineering through his research and publications. His most notable works include research on Scratch Testing and Stir Casting, both of which have important implications for industries such as automotive and aerospace. He has presented his findings at various national and international conferences, and his papers have been well-received in the field of material science and mechanical testing. His research publications, particularly in non-traditional machining and innovative engineering applications, are often cited by fellow researchers and industry professionals seeking to advance manufacturing processes and material design.

“Scratch Testing Assessment of Detonation Gun-Sprayed CA6NM Stainless Steel” by S. Kumar, S. Bhandari, and M. Kaur, published in Transactions of the Indian Institute of Metals in 2025. Since I don’t have access to external sources like journals or subscription-based articles, I can’t retrieve the content of the paper directly. However, based on your reference, I can offer a few avenues for you to obtain or learn more about the paper:

1. Accessing the Paper

  • Institutional Access: If you’re affiliated with a university or institution, you might be able to access the journal through your library’s electronic resources.

  • ResearchGate: Many researchers upload their papers to ResearchGate or similar platforms where you can request a full-text version directly from the authors.

  • Publisher’s Website: You can visit the publisher’s website (likely Springer or Taylor & Francis, depending on the journal) and search for the paper by its title or authors. If it’s behind a paywall, you may be able to access an abstract or purchase a copy.

  • Google Scholar: Often, Google Scholar links to full-text versions if they are available in open access repositories.

2. Key Areas Likely Covered in the Paper

The title suggests that this paper deals with scratch testing as an assessment method for coatings applied via detonation gun spraying on CA6NM stainless steel. Here’s an overview of what the paper could cover based on the subject matter:

  • Scratch Testing Methodology: This would detail the test procedures, parameters (e.g., load, speed), and the type of equipment used to evaluate the surface properties of the coated steel.

  • Results & Analysis: The paper would likely present data comparing the performance of detonation gun-sprayed CA6NM steel in terms of scratch resistance, hardness, and adhesion strength.

  • Coating Characteristics: Since DGS is a thermal spraying process, the authors would explore how the coating affects the substrate material’s mechanical properties, particularly focusing on wear and durability.

  • Comparative Analysis: It might compare DGS coatings with other spray methods, highlighting advantages or limitations for specific industrial applications.

  • Applications: Given the high-performance characteristics of CA6NM stainless steel, the paper may discuss how the findings are relevant to industries such as aerospace, energy, or heavy machinery, where wear and corrosion resistance are crucial.

Muhammad Wasim, Neuroscience, Best Innovator Award

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Dr. Muhammad Wasim: Postdoctoral Fellow at Maternal and Children’s Health Research Institute, Shunde Women and Children’s Hospital, Guangdong Medical University, China

  • Name: Dr. Muhammad Wasim

  • Current Role/Designation: Postdoctoral Fellow

  • Organization/Institution Details: Maternal and Children’s Health Research Institute, Shunde Women and Children’s Hospital, Guangdong Medical University, Foshan, 528300, China

  • Country: China

  • Subject Track: Neuroscience

  • Award Categories: Best Innovator Award

Dr. Muhammad Wasim is a passionate neuroscientist and experienced postdoctoral researcher currently working at the Maternal and Children’s Health Research Institute, Shunde Women and Children’s Hospital, Guangdong Medical University, China. With a strong foundation in molecular neuroscience, his academic and research interests lie at the intersection of brain and systemic diseases, particularly focusing on neurological and respiratory disorders. He has consistently contributed to translational neuroscience through impactful publications, exploring mechanisms behind epilepsy, Alzheimer’s disease, depression, and rare genetic disorders. Dr. Wasim brings a multidisciplinary approach to his work, combining molecular biology, behavioral studies, and clinical collaboration to address complex biomedical questions.

Online Profiles

Google Scholar Profile

As of 2025, Dr. Muhammad Wasim has accumulated a total of 560 citations across his body of published work, with 450 citations since 2020, demonstrating the growing relevance of his research in recent years. He holds an h-index of 9, indicating that at least nine of his publications have been cited nine times or more, and an i10-index of 9, reflecting nine papers with at least ten citations each. These metrics underscore the academic impact and citation strength of his contributions to neuroscience, epilepsy, neurodegeneration, and translational medicine.

Education

Dr. Wasim earned his PhD in Neuroscience from the National Institute for Biotechnology and Genetic Engineering (NIBGE), affiliated with the Pakistan Institute of Engineering and Applied Sciences (PIEAS), one of the country’s premier scientific research institutions. He completed his doctoral degree on 21 September 2020, where his thesis work was focused on exploring molecular and epigenetic factors contributing to Alzheimer’s disease. His academic training included extensive work in gene expression analysis, neurobehavioral studies, and the evaluation of bioactive compounds for therapeutic applications. His strong academic background has equipped him with both theoretical knowledge and hands-on laboratory expertise in neuroscience.

Research Focus

Dr. Wasim’s current research at Guangdong Medical University explores the relationship between respiratory diseases and neurological impairment, especially in maternal and pediatric populations. Previously, his work at Aga Khan University delved into temporal lobe epilepsy and neurodegeneration, investigating hippocampal sclerosis and seizure pathology. Across his career, he has maintained a strong interest in the therapeutic potential of natural products, miRNA regulation, and neuroinflammation. He continues to pursue research that bridges basic neuroscience with clinical relevance, particularly targeting neurodevelopmental disorders, Alzheimer’s disease, anxiety, and depression models using multi-omics and behavioral methodologies.

Experience

Dr. Wasim’s research journey spans over a decade, beginning with his PhD in Pakistan and extending into international postdoctoral roles. His first postdoctoral fellowship at Aga Khan University focused on clinical and experimental epilepsy research, where he worked with both patient data and animal models. Currently, as a postdoctoral fellow in China, he is involved in cutting-edge research examining the molecular links between respiratory health and brain function in children and mothers. He has collaborated with multidisciplinary teams across Pakistan, Denmark, and China, and has contributed to mentoring junior researchers, conducting grant writing, and managing multi-lab projects involving in vivo experimentation and omics data analysis.

Research Timeline & Activities

Since 2020, Dr. Wasim has actively contributed to neuroscience research through experimental design, data interpretation, and cross-border collaborations. His timeline includes involvement in multiple projects such as proteomic profiling in intellectual disability, molecular docking in phytopharmacology, and translational studies in genetic disorders. He regularly engages in conference presentations, scientific writing, peer reviewing, and supervising lab activities. His contributions span from rodent model development and behavioral testing to neurochemical analysis and bioinformatics, reflecting his well-rounded profile as a modern biomedical researcher. His work demonstrates a commitment to interdisciplinary science, clinical translation, and the training of the next generation of neuroscientists.

Awards & Honors

Dr. Wasim has been the recipient of several academic distinctions and research fellowships, reflecting his high-impact contributions in the field of neuroscience. During his PhD, he was supported by competitive government-funded research scholarships, and he has since received international recognition through postdoctoral appointments in Pakistan and China. He has also been awarded travel grants to attend scientific conferences and has received commendations for his work on epilepsy and Alzheimer’s disease. His dedication to research excellence has been acknowledged through collaborations with leading institutions and consistent publication in high-ranking peer-reviewed journals.

Top Noted Publication

Among Dr. Wasim’s numerous publications, one of his most impactful works is the 2025 article titled “miR-137: A therapeutic candidate or a key molecular regulator in Alzheimer’s disease?”, published in the Journal of Alzheimer’s Disease Reports. This paper highlights the emerging role of microRNA-137 in regulating neurodegeneration, synaptic plasticity, and cognitive dysfunction, positioning it as a potential therapeutic target in Alzheimer’s therapy. The study integrates molecular biology, clinical insight, and bioinformatics approaches, making it a highly referenced and influential publication in the field of neurodegenerative research.

  • miR-137: A therapeutic candidate or a key molecular regulator in Alzheimer’s disease?
    M. Wasim, J. Guo, Z. Wang, R. Parveen, R. Chen, Y. Wang, G. Ma
    Journal of Alzheimer’s Disease Reports, 9, 25424823251352166 (2025).

  • Phenotypic and Genotypic Landscape of Epileptic Encephalopathies in Children with Seven Novel Variants: A Single Tertiary Care Hospital Experience
    I. Javed, H.N. Khan, T. Sultan, M. Wasim
    Neurochemical Journal, 19(2), 217-226 (2025).

  • Exploring Proteomic Alterations in Intellectual Disability: Insights from Hyperlipidemia and Hyperphosphatasia Subgroups
    S. Vankwani, M.R. Mirza, M. Tahir, M. Wasim, S.A. Rajput, H.N. Khan, et al.
    NeuroMolecular Medicine, 27(1), 38 (2025).

  • Neuroprotective Role of Epigallocatechin-3-Gallate, Albeginin and Melanoxetin in Alzheimer’s Disease
    A. Malik, M. Hassan, S. Waquar, M. Wasim, A. Naz, F.M. Awan, M.T. Khan, et al.
    Phytomedicine Plus, 5(1), 100740 (2025).

  • Antidepressive and Anxiolytic Effects of a Combination of Saffron and Chamomile in Rats and Their Relationship with Serotonin Using In Vivo Methods
    A. Faiq, A. Saara, W. Muhammad, K. Asra, M.A. Fazal, B. Zehra, T. Saiqa, et al.
    Journal of Traditional Chinese Medicine, 45(1), 49 (2025).