Andrew Rossetti | Environmental Science | Best Researcher Award

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Dr. Andrew Rossetti | Environmental Science | Best Researcher Award

Mount Sinai Health System | United States

Dr. Andrew Rossetti is a renowned music psychotherapist, researcher, and educator with global recognition for his pioneering contributions to music therapy in oncology, psychiatry, neurology, and palliative care. Serving as Director of Oncology Music Therapy at the Mount Sinai Health System, he integrates clinical expertise and scientific research to improve patient outcomes. With academic appointments in leading universities across Europe, the Americas, and Asia, Dr. Andrew Rossetti has significantly shaped the field of music and medicine.

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Education

Dr. Andrew Rossetti’s educational journey reflects both artistic mastery and clinical excellence. He completed his doctoral training in Music Psychotherapy at the University of Jyväskylä, Finland, where his work focused on the therapeutic application of music within clinical environments. Prior to this, he pursued advanced studies in Music Therapy with a specialization in Mental Health at the Universidad Ramón Llull in Barcelona, Spain, gaining expertise in psychotherapeutic approaches to trauma and psychiatric care. His academic foundation began with a Bachelor of Science & Music in Classical Guitar Performance at the Westchester Conservatory of Music, New York, where he was awarded a full academic scholarship in recognition of his exceptional talent.

Experience

Dr. Andrew Rossetti has held prominent leadership and clinical roles at Mount Sinai, including Director of Oncology Music Therapy and Coordinator of Environmental Music Therapy Initiatives. He has supervised comprehensive multi-site music therapy programs in oncology, psychiatry, and neurology, advancing innovative therapeutic approaches for patients and caregivers. Internationally, he has worked extensively in Spain, Puerto Rico, and the United States, focusing on trauma recovery, autism spectrum interventions, and caregiver support. His long-standing faculty roles at the University of Barcelona and Montclair State University highlight his commitment to educating future music therapists and advancing academic excellence.

Research Interest

Dr. Andrew Rossetti’s research interests focus on the neuropsychological and clinical impact of music in medicine. His investigations address the use of music to reduce stress, anxiety, and trauma, while supporting patients with cancer, stroke, Alzheimer’s disease, and mental health conditions. He collaborates in interdisciplinary studies that evaluate music’s influence on emotional regulation, metabolic pathways, and cognitive resilience. Through grant-funded projects, he explores how therapeutic music can be systematically applied to enhance healing and quality of life for patients and caregivers.

Awards

Dr. Andrew Rossetti has been honored with major research grants, international leadership roles, and global recognition for his pioneering contributions to music therapy and medicine. As principal investigator on nationally and internationally funded projects, he has advanced evidence-based practices that transform patient care in oncology, neurology, and psychiatry. His election as President of the International Association for Music & Medicine, combined with his extensive visiting professorships and keynote invitations worldwide, reflects the trust and esteem he commands within the global research community.

Publication

Dr. Andrew Rossetti has authored impactful research publications that advance the integration of music and medicine. Some of his notable works include:

Title: The impact of music therapy on anxiety in cancer patients undergoing simulation for radiation therapy
Journal: International Journal of Radiation
Published on: 2017
Citation: 179

Title: Effects of music therapy on anxiety and physiologic parameters in angiography: a systematic review and meta-analysis
Journal: Journal of Neurointerventional Surgery
Published on: 2019
Citation: 65

Title: Effectiveness of music therapy in advanced cancer patients admitted to a palliative care unit: a non-randomized controlled, clinical trial
Journal: Music and Medicine
Published on: 2015
Citation: 48

Title: The effects of clinical music therapy on resiliency in adults undergoing infusion: a randomized, controlled trial
Journal: Journal of Pain and Symptom Management
Published on: 2021
Citation: 40

Title: Environmental Music Therapy (EMT): Music’s contribution to changing hospital atmospheres and perceptions of environments
Journal: Music and Medicine
Published on: 2020
Citation: 34

Title: Music, music therapy and trauma
Journal: Music and Medicine
Published on: 2018
Citation: 30

Title: Towards prescribed music in clinical contexts: More than words
Journal: Music and Medicine
Published on: 2014
Citation: 23

Title: Environmental music therapy: Rationale for ‘multi-individual’ music psychotherapy in modulation of the pain experience
Journal: Music and Medicine: Integrative Models in the Treatment of Pain
Published on: 2013
Citation: 16

Conclusion

Dr. Andrew Rossetti exemplifies excellence as a researcher, clinician, and leader in music therapy. His interdisciplinary expertise, international teaching roles, and groundbreaking research projects reflect his lifelong dedication to improving health and well-being through music. By integrating therapeutic music into medical practice, he has transformed patient care in oncology, neurology, and psychiatry. His nomination for the Best Researcher Award is a testament to his global impact, academic contributions, and unwavering commitment to advancing the field of music and medicine.

Biswajit Sahu | Mathematics | Best Researcher Award

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Prof. Biswajit Sahu | Mathematics | Best Researcher Award

West Bengal State University | India

Prof. Biswajit Sahu is an eminent academician and researcher in the Department of Mathematics at West Bengal State University, India. His scholarly reputation is built upon his profound expertise in plasma dynamics, nonlinear wave propagation, and dynamical systems. With more than two decades of impactful teaching and research, he has become a cornerstone in the study of theoretical plasma physics, widely respected for his ability to bridge mathematical rigor with physical phenomena. He has guided doctoral scholars, collaborated with international institutions, and published extensively in highly reputed scientific journals, thereby shaping the global discourse in plasma research.

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Education

Prof. Biswajit Sahu academic journey reflects a strong foundation in mathematics and its applications in physical sciences. He pursued his Master of Science in Applied Mathematics from the University of Calcutta, where he acquired advanced knowledge in mathematical modeling and analysis. He later obtained a Doctor of Philosophy in Science from Jadavpur University, where his research concentrated on the intricate behavior of nonlinear plasma waves. This academic background not only deepened his theoretical insight but also provided him with the analytical tools to contribute original findings in the interdisciplinary domain of plasma physics and dynamical systems.

Experience

Prof. Biswajit Sahu’s professional career has been marked by steady advancement in both teaching and research roles. He began as a Research Scholar at the Indian Statistical Institute, engaging in high-level theoretical studies, before taking up a teaching position at Dinhata College as Lecturer in Mathematics. He subsequently joined West Bengal State University, where his dedication and expertise elevated him through successive roles as Assistant Professor, Associate Professor, and ultimately Professor of Mathematics. His teaching spans diverse areas such as nonlinear differential equations, plasma dynamics, continuum mechanics, numerical analysis, and operations research. In parallel, he has successfully completed research projects, served as referee for international journals, and contributed as Review Editor for the section of Low-Temperature Plasma Physics in Frontiers in Physics.

Research Interest

Prof. Biswajit Sahu’s research interests lie at the intersection of applied mathematics and plasma physics. His core focus is on nonlinear wave dynamics in plasma, with particular emphasis on dust ion-acoustic waves, quantum plasmas, and dissipative structures in magnetized environments. He is also deeply interested in dynamical systems, nonlinear partial differential equations, and their applications in astrophysical and space plasmas. His work integrates advanced mathematical modeling with physical interpretation, shedding light on complex behaviors such as solitons, shocks, chaos, and wave modulations in multi-component plasma systems. These contributions have not only advanced theoretical understanding but also influenced practical insights into space physics and plasma-based technologies.

Awards

Prof. Biswajit Sahu has received several distinguished academic recognitions. He was awarded the Graduate Aptitude Test in Engineering (GATE) qualification, which marked his early excellence in mathematical sciences. His research potential was further recognized with the Research Fellowship Award from the Indian Statistical Institute. He also qualified the CSIR-UGC National Eligibility Test (NET), a highly competitive fellowship program in India, which provided him the platform to pursue advanced research in plasma dynamics. These awards stand as testimony to his academic brilliance and his long-standing contributions to mathematics and physics.

Publications

Prof. Biswajit Sahu has published more than forty peer-reviewed research articles in internationally reputed journals, many of which are frequently cited by other scholars working in nonlinear dynamics, space plasma, and astrophysical modeling. Selected publications include:

  • Head-on collision of ion acoustic solitary waves in an electron-positron-ion plasma with super thermal electrons
    Journal: Physics of Plasmas
    Published on: 2010
    Citation: 144

  • Quantum ion acoustic shock waves in planar and nonplanar geometry
    Journal: Physics of Plasmas
    Published on: 2007
    Citation: 105

  • Nonextensive dust acoustic solitary and shock waves in nonplanar geometry
    Journal: Astrophysics and Space Science
    Published on: 2012
    Citation: 94

  • Exact solutions of cylindrical and spherical dust ion acoustic waves
    Journal: Physics of Plasmas
    Published on: 2003
    Citation: 78

  • Electron acoustic solitary waves and double layers with superthermal hot electrons
    Journal: Physics of Plasmas
    Published on: 2010
    Citation: 69

  • Electron acoustic solitons in a relativistic plasma with nonthermal electrons
    Journal: Physics of Plasmas
    Published on: 2006
    Citation: 66

  • Ion acoustic solitary waves and double layers with nonextensive electrons and thermal positrons
    Journal: Physics of Plasmas
    Published on: 2011
    Citation: 65

Conclusion

Prof. Biswajit Sahu’s academic career embodies a remarkable blend of teaching excellence, innovative research, and scientific leadership. His extensive work on nonlinear plasma dynamics and theoretical modeling has provided valuable insights into fundamental plasma processes relevant to astrophysics, space science, and applied plasma technologies. His role as a mentor, collaborator, and international contributor further enhances his standing as a thought leader in mathematics and physics. With his consistent achievements and scholarly impact, he stands as a highly deserving nominee for the Best Researcher Award, exemplifying both dedication and innovation in scientific research.

Laura Dominique | Psychology | Best Researcher Award

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Dr. Laura Dominique | Psychology | Best Researcher Award

Northumbria University | United Kingdom

Dr. Laura Dominique is an internationally recognised forensic psychologist, academic, and inventor whose career has been dedicated to improving communication and justice outcomes for vulnerable individuals within the criminal justice system. Dr. Laura Dominique is the inventor and Principal Investigator of the Forensic Interview Trace, an innovative research-led tool designed to enhance the effectiveness and fairness of investigative interviewing. Alongside her academic achievements, Dr. Laura Dominique has worked extensively as a Registered Intermediary accredited by the Ministry of Justice, directly supporting vulnerable victims, witnesses, and suspects who present with mental health conditions, learning disabilities, or autism. Her leadership, both in academia and practice, has placed her at the forefront of forensic psychology, making her an influential figure in research, teaching, and applied practice.

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Education

Dr. Laura Dominique pursued advanced studies in psychology and health, establishing a strong foundation for her pioneering work. Dr. Laura Dominique completed her doctorate in psychology at Goldsmiths, University of London, where her thesis focused on developing a more practice-oriented framework for investigative interviewing in relation to mental disorder. She holds a Bachelor of Science with Honours in Psychology, complemented by a Diploma in Health and Social Care, reflecting her interdisciplinary expertise. Dr. Laura Dominique has also been awarded Fellowship of the Higher Education Academy, acknowledging her academic contribution to teaching and research excellence. This combination of qualifications demonstrates her continuous commitment to both academic scholarship and practical application.

Experience

With an extensive and diverse professional background, Dr. Laura Dominique has held several prominent academic positions including Assistant Professor at Northumbria University, Senior Lecturer and Programme Leader in Forensic Psychology at the University of Sunderland, and Lecturer at Manchester Metropolitan University. In these roles, Dr. Laura Dominique has taught and supervised undergraduate and postgraduate students, developed innovative curricula, and contributed to research-led teaching. Beyond academia, Dr. Laura Dominique is the Founder and Director of her own specialist company focusing on communication within vulnerability, working closely with criminal justice professionals to implement best practice in cases involving individuals with mental health disorders and learning disabilities. Dr. Laura Dominique has acted as consultant and trainer to national and international bodies, including the International Criminal Court, judicial colleges, and multiple police forces, delivering expertise on interviewing vulnerable suspects, witnesses, and victims. Her breadth of experience reflects both leadership and commitment to bridging the gap between research, practice, and policy.

Research Interests

Dr. Laura Dominique’s research interests lie at the intersection of forensic psychology, criminal justice, and communication. Dr. Laura Dominique’s work is primarily concerned with how vulnerable individuals are supported during investigative processes and how police officers and legal practitioners approach cases involving mental disorder, learning difficulties, and other communication challenges. She has conducted in-depth studies on investigative interviewing techniques, false confessions, miscarriages of justice, and the role of the Appropriate Adult in safeguarding suspects. Dr. Laura Dominique also explores broader themes including forensic linguistics, interview decision-making, the effectiveness of special measures in court, and the protection of witnesses with communication needs. Her research is both theoretical and applied, providing not only scholarly contributions but also practical recommendations that shape policy and training for justice professionals.

Awards

Throughout her career, Dr. Laura Dominique has successfully secured prestigious research funding and innovation awards that highlight the impact and relevance of her work. Dr. Laura Dominique has been recognised through enterprise fellowships and commercialisation support awards to further develop and evaluate the Forensic Interview Trace, demonstrating her ability to translate research into market-ready solutions. She has also received major research grants from national defence and security bodies, enabling her to test and validate forensic communication tools in high-stakes environments. In addition, Dr. Laura Dominique has led and collaborated on several externally funded projects with colleagues in criminology, law, and psychology, addressing issues ranging from police training and suspect interrogation to support for vulnerable witnesses. These achievements underscore her reputation as an innovative and impactful researcher with a strong record of applied grant success.

Publications

Dr. Laura Dominique has published extensively in leading journals and books on forensic psychology and criminal justice. Selected works include:

Title: Forensic interviewing of vulnerable interviewees in England and Wales: A Study Space Analysis
Journal: Journal of Police and Criminal Psychology
Published on: 2025

Title: Community and police officer attitudes towards offenders with mental health conditions
Journal: Current Issues in Criminal Justice
Published on: 2024

Title: Exploring vulnerability in the criminal justice system in England and Wales
Journal: Routledge
Published on: 2024

Title: Evaluation of Forensic Interviews and Interrogations: A Thematic Analysis of Law-Enforcement Views
Journal: Journal of Criminal Psychology
Published on: 2024

Title: Politeness, face, and rapport-building in remote and face-to-face investigative interviews with witnesses
Journal: International Journal of Speech, Language and the Law
Published on: 2024

Title: The Appropriate Adult: Their perspective working in the Criminal Justice System
Journal: Criminology and Criminal Justice
Published on: 2023

Title: Achieving best evidence from victims and witnesses
Journal: Interviewing and interrogation
Published on: 2023

Title: Evaluating process
Journal: Police Professional
Published on: 2022

Conclusion

Dr. Laura Dominique represents the highest standard of excellence in research, innovation, and professional practice. Dr. Laura Dominique has combined academic rigour with a strong commitment to practical application, developing tools, training, and frameworks that improve justice processes for some of the most vulnerable members of society. Her invention of the Forensic Interview Trace and her extensive record of publications have had significant national and international impact. Dr. Laura Dominique has demonstrated leadership in teaching, consultancy, and applied research, positioning herself as a global authority in forensic psychology and communication within vulnerability. For these reasons, Dr. Laura Dominique is a highly deserving candidate for the Best Researcher Award, embodying the values of innovation, integrity, and societal impact.

Neha Pandey | Chemical Engineering | Best Researcher Award

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Dr. Neha Pandey | Chemical Engineering | Best Researcher Award

National Institute of Technology Delhi | India

Dr. Neha Pandey is a highly accomplished chemical engineer and innovative researcher with a strong commitment to advancing sustainable environmental technologies. She has established herself as an expert in wastewater treatment, sustainable energy, and process optimization. Her professional journey is characterized by significant contributions to eco-friendly wastewater management and resource recovery. By integrating chemical engineering principles with sustainability-driven research, Dr. Neha Pandey has developed scalable solutions that address critical environmental challenges.

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Education

Dr. Neha Pandey pursued her higher education with a consistent focus on chemical engineering. She completed her bachelor’s degree in chemical engineering at Guru Ghasidas Vishwavidyalaya, followed by a master’s degree at the National Institute of Technology, Raipur, where she specialized in advanced chemical processes. She then earned her doctorate in chemical engineering from the same institute, where her thesis centered on the electrocoagulation treatment of pulp and paper mill wastewater. This academic journey equipped Dr. Neha Pandey with deep expertise in process optimization, advanced water treatment technologies, and sustainable development approaches. The strong foundation she built during her academic training continues to reflect in her impactful research and innovative contributions.

Experience

Dr. Neha Pandey has an extensive professional background that spans leading technical institutes and national-level projects. At the National Institute of Technology Delhi, she has served as a Research Associate, contributing to a government-sponsored project focused on bio-electricity generation and optimization of constructed wetlands for wastewater treatment. As a post-doctoral fellow at the Indian Institute of Technology Jodhpur, she worked on projects addressing ion removal through electrocoagulation and hybrid decentralized wastewater treatment systems. At the Indian Institute of Technology Bombay, she contributed to applied research aimed at achieving safe and affordable water access in urban settings, aligning with sustainable development objectives. Her earlier role at CSIR-Advanced Materials and Process Research Institute involved the development of bamboo composite beams for engineering applications. These experiences demonstrate Dr. Neha Pandey’s ability to successfully lead and contribute to projects that combine scientific research, engineering innovation, and sustainability.

Research Interest

Dr. Neha Pandey’s research interests focus on developing efficient and sustainable approaches for wastewater treatment. She has worked extensively on electrocoagulation, process optimization, and sludge management, with special emphasis on physico-chemical treatment methods. She is also deeply involved in advancing hybrid constructed wetlands and integrating biological systems with chemical treatment processes. Her innovative approach extends to smart synergistic oxidation methods, machine learning-based predictive models, and statistical techniques for process optimization. Beyond wastewater treatment, Dr. Neha Pandey has explored sustainable energy generation, environmental materials, and polymer composites. Her multidisciplinary interests highlight her vision of creating solutions that are scientifically sound, environmentally sustainable, and socially impactful.

Awards

Dr. Neha Pandey has been consistently recognized for her academic and research achievements. She was awarded institute fellowships during her postgraduate and doctoral studies, which reflected her exceptional merit. Her research excellence has been recognized with multiple awards for best paper presentations at both national and international platforms, where her work on wastewater treatment and sustainable technologies was highly appreciated. She has also been honored with a prestigious post-doctoral fellowship at the Indian Institute of Technology Jodhpur, further cementing her reputation as a promising researcher in her field. These awards underscore Dr. Neha Pandey’s consistent pursuit of academic excellence, innovation, and dedication to sustainable research.

Publications

Dr. Neha Pandey has contributed a significant number of publications to high-impact international journals, with her work receiving citations and recognition from researchers worldwide. Some of her notable publications include:

Title: Study on treatment of paper mill wastewater by electrocoagulation and its sludge analysis
Journal: Chemical Data Collections
Published on: 2020
Citation: 34

Title: Degradation of mixed dye via heterogeneous Fenton process: Studies of calcination, toxicity evaluation, and kinetics
Journal: Water Environment Research
Published on: 2020
Citation: 24

Title: Statistical comparison of response surface methodology–based central composite design and hybrid central composite design for paper mill wastewater treatment by electrocoagulation
Journal: Process Integration and Optimization for Sustainability
Published on: 2020
Citation: 21

Title: Desirability analysis of multiple responses for electrocoagulation remediation of paper mill wastewater by using a central composite design
Journal: Journal of The Institution of Engineers
Published on: 2021
Citation: 8

Title: Modeling and optimization data analysis on photocatalytic decolourization of amido black 10B using ZnO catalyst
Journal: Data in Brief
Published on: 2019
Citation: 7

Title: Degradation of 4-nitrophenol (4-NP) using Fe-loaded fly ash brick clay as a heterogeneous Fenton catalyst
Journal: Desalination and Water Treatment
Published on: 2017
Citation: 6

Title: Treatment of Automobile Wastewater by Electrocoagulation
Journal: International Journal of Trend Research and Development
Published on: 2017
Citation: 2

Conclusion

Dr. Neha Pandey has established herself as a pioneering researcher whose work addresses some of the most critical environmental challenges of our time. Her strong academic background, research experience across leading institutes, impactful publications, patents, and awards collectively demonstrate her excellence and innovation in chemical engineering and sustainable technologies. By combining advanced wastewater treatment methods with practical applications, Dr. Neha Pandey has made contributions that advance science, promote sustainability, and provide solutions for societal benefit. Her outstanding achievements make her a deserving nominee for the Best Researcher Award.

Kavi Praba A | Nanotechnology | Best Researcher Award

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Ms. Kavi Praba A | Nanotechnology | Best Researcher Award

Sathyabama Institute of Science and Technology | India

Ms. Kavi Praba A is an accomplished academician and an emerging researcher in the field of Biotechnology, with expertise spanning nanobiotechnology, bioinformatics, microbial nanoscience, and plant-based therapeutics. She has established herself as a young researcher with notable contributions in nanoparticle biosynthesis, bio-remediation, and cancer-related computational drug discovery. At present, she is working as an Assistant Professor in the Department of Biotechnology at Sathyabama Institute of Science and Technology, Chennai, where she combines teaching and research excellence. Her journey in the scientific field reflects not only her dedication to research but also her commitment to nurturing future scientists. Her projects, publications, and teaching endeavors have positioned her as a promising scientist contributing toward both applied and theoretical aspects of biotechnology.

Professional Profile

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Education

She completed her Master of Technology in Biotechnology from Sathyabama Institute of Science and Technology, Chennai, where her research focused on the controllable biogenic synthesis of silver nanoparticles using endophytic fungi and their environmental applications. Prior to this, she pursued a Bachelor of Technology in Biotechnology at Vivekananda College of Engineering for Women, Tiruchengode, during which she developed a strong foundation in molecular biology, microbiology, and bioinformatics. She has also undertaken impactful academic projects, including the cultivation and harvesting of Spirulina, molecular docking of flavonoids against breast cancer, and myco-nano remediation studies. Her strong educational background has provided her with both practical laboratory expertise and advanced computational knowledge, enabling her to integrate multiple disciplines of biotechnology in her research.

Experience

Her professional experience reflects her commitment to both teaching and research excellence. She has been serving as an Assistant Professor in the Department of Biotechnology at Sathyabama Institute of Science and Technology, where she mentors undergraduate and postgraduate students in cutting-edge areas of biotechnology. Beyond teaching, she has actively contributed to developing and guiding projects in nanobiotechnology, pharmacophore modeling, and environmental biosciences. Her prior research projects, which included molecular docking of natural flavonoid compounds against breast cancer targets, biogenic synthesis of silver nanoparticles from fungal endophytes, and algae-based cultivation systems, demonstrate her ability to work across interdisciplinary areas. Her career highlights not only her professional teaching role but also her ability to bridge research and application for the benefit of science and society.

Research Interest

Her research interests cover a wide range of innovative topics in biotechnology, with a special emphasis on nanobiotechnology, microbial nanoscience, molecular docking, pharmacophore-based drug discovery, and biofuel research. She is particularly drawn to the biosynthesis of nanoparticles from endophytic fungi and microbes, recognizing their potential in medical applications as well as environmental remediation. She also explores the application of lignocellulosic biomass in sustainable biofuel production, addressing global energy challenges. Additionally, she focuses on nanocomposites and their applications in biotechnology, highlighting their use in developing eco-friendly solutions. Her work reflects a dedication to integrating biotechnology with sustainability, with research that bridges fundamental science and real-world applications.

Awards

Ms. Kavi Praba A has received recognition for her academic and professional contributions, reflecting her dedication to excellence. She was honored with the Best Faculty Advisor award for the IE(I) Biotechnology Student Chapter in Hosur Local Chapter, which underscores her leadership and mentorship in academic development. She has also achieved notable success in academic competitions, including first prizes in oral presentations on innovative molecular docking approaches and novel ideas in food packaging technology. These awards showcase not only her research excellence but also her creativity in applying scientific principles to real-world challenges. Her awards collectively demonstrate her capability to lead, innovate, and inspire within the scientific community.

Publications

Her academic contributions are reflected in multiple publications, including high-quality journal papers and book chapters in areas of nanoscience, pharmacology, and biotechnology applications. Her work highlights both review and original research contributions, strengthening the body of knowledge in microbial nanotechnology and environmental biotechnology. Some of her significant publications include:

1. Title: Approaches, Properties and Applications of Nanocomposite – A Review
Journal: Indian Journal of Environmental Protection
Published on: February, 2022

2. Title: Lignocellulosic Biomass as an Alternate Source for Next-Generation Biofuel
Journal: Book Chapter, ScienceDirect (Elsevier)
Published on: January, 2022

3. Title: Exploring Microbial Nanoparticle Biosynthesis and Its Impact in Environmental Quality Management
Journal: Environmental Quality Management
Published on: April, 2025

Conclusion

Ms. Kavi Praba A is a passionate academician and researcher whose contributions to biotechnology highlight her innovation, dedication, and scholarly commitment. Through her research on microbial nanotechnology, environmental quality management, molecular docking, and sustainable biofuel development, she has contributed significantly to addressing global scientific challenges. Her recognition through awards, her impactful publications, and her role as an educator demonstrate her ability to bridge teaching, research, and application. With her continuous pursuit of excellence and her vision for sustainable scientific solutions, she stands out as a highly deserving nominee for the Best Researcher Award.

Gulnar Ultanbekova | Agricultural and Biological Sciences | Best Researcher Award

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Assoc. Prof. Dr. Gulnar Ultanbekova | Agricultural and Biological Sciences | Best Researcher Award

Al-Farabi Kazakh National University | Kazakhstan

Dr. Gulnar Ultanbekova is an accomplished scientist and Acting Associate Professor of Biotechnology at Al-Farabi Kazakh National University. With more than two decades of dedicated service in microbiology and biotechnology, she has established herself as a leading figure in microbial research, applied agricultural biotechnology, and the development of innovative bioproducts. Her leadership at the Institute of Microbiology and Virology of Kazakhstan was instrumental in the creation of groundbreaking microbial preparations, including Rizovit-AKS and the antifungal drug Roseofungin-AS, both of which have been widely recognized for their scientific and practical impact. She has consistently demonstrated the ability to bridge fundamental research with real-world agricultural applications, earning her a reputation as a pioneer in microbial biotechnology and sustainable agriculture.

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Education

Her academic journey began with a Bachelor’s degree in Biology, followed by a Master’s in Ecology, and culminating in a Doctorate in Biological Sciences from Al-Farabi Kazakh National University. This strong academic foundation provided her with expertise in microbial ecology, soil microbiology, and applied biotechnology. Over the years, she has complemented her formal education with continued professional development, mentorship under leading academicians, and hands-on research in microbial innovations. Her educational background has equipped her with the knowledge and skills necessary to address the challenges of soil fertility, crop productivity, and sustainable agricultural practices through microbial biotechnology.

Experience

Dr. Gulnar Ultanbekova professional career spans over twenty years in academic teaching, laboratory leadership, and applied research. She headed the Antibiotics Laboratory at the Institute of Microbiology and Virology of Kazakhstan, where she contributed to the development of novel antibiotics and microbial biofertilizers. In her role, she collaborated with agricultural enterprises to implement microbial technologies that improved soil fertility and crop yields in practical farming systems. She has authored several scientific books, guided numerous research projects, and supervised students in microbiology and biotechnology. Currently, as Acting Associate Professor at Al-Farabi Kazakh National University, she continues to balance teaching, mentorship, and high-impact research, ensuring the growth of both science and future scholars in her field.

Research Interest

Her primary research interests lie in microbial biotechnology, soil microbiology, plant-microbe interactions, and the design of microbial biofertilizers. She has specialized in exploring plant growth-promoting rhizobacteria, nitrogen-fixing actinobacteria, and antibiotic-producing microorganisms. Her work focuses on the development of multifunctional microbial preparations that restore soil fertility, enhance crop yield, and support sustainable agricultural systems. Through her projects, she has developed microbial strains with high infectivity and growth-stimulating activity, patented bio-organic fertilizers, and applied technologies that are now being implemented in real agricultural environments. Her research philosophy emphasizes sustainability, ecological balance, and the integration of advanced science with practical farming solutions.

Awards

Dr. Gulnar Ultanbekova has been recognized at the highest national level for her significant contributions to science and technology. She was honored with the State Prize of the Republic of Kazakhstan for her leadership in the development and commercialization of the antifungal drug Roseofungin-AS, a pioneering achievement in microbial biotechnology. Additionally, she has received the YEREN YENBEGI USHIN Medal from Al-Farabi Kazakh National University in recognition of her exceptional service, dedication to academic excellence, and contributions to institutional growth. These prestigious awards highlight both her scientific achievements and her role as a transformative figure in biotechnology.

Publications

Dr. Gulnar Ultanbekova has published more than fifty scientific papers in national and international journals. Her articles address themes such as soil fertility restoration through nitrogen-fixing actinobacteria, the role of microbial biofertilizers in enhancing legume productivity, and ecological approaches to crop improvement. Representative publications include:

Title: Antifungal activity against pathogens of cereals and characterization of antibiotics of Streptomyces sp. strain K-541 isolated from extreme ecosystems in Kazakhstan
Journal: Agricultural Biology
Published on: 2018
Citation: Cited by 7

Title: Isolation and selection of nodulating bacteria from the rhizosphere of legume (Vigna radiata) and bean (Phaseolus lunatus) plants and enhancement of specific properties
Journal: BIO Web of Conferences
Published on: 2024
Citation: Cited by 1

Title: Effect of UV irradiation of PGPR bacteria on seed germination and plant growth of mung bean (Vigna radiata)
Journal: European Science
Published on: 2019
Citation: Cited by 1

Title: Agrochemical compositions of soils and rhizosphere microorganisms of Rosa potentilliflora Chrshan. et M. Pop. in the eastern and central parts of the Zailiyskiy Alatau
Journal: Ecological Processes
Published on: 2025

Title: The use of predatory fungi of the genus Arthrobotrys isolated from soils of farmland in Southern Kazakhstan to control nematode infections in tomato plants
Journal: BIO Web of Conferences
Published on: 2024

Title: Influence of halophilic microorganisms Bacillus sp. PK-1 on the growth and development of maize under irrigated saline soil conditions in the Turkestan region
Journal: Eurasian Journal of Ecology
Published on: 2020

Title: Study on the effect of biopreparations based on streptomycete strains on wheat growth under conditions of Fusarium oxysporum infection
Journal: Biology and Medicine Series
Published on: 2017

Conclusion

Dr. Gulnar Ultanbekova is a highly accomplished researcher whose career exemplifies the integration of fundamental microbiology with applied biotechnology for agricultural sustainability. Through her research, she has introduced microbial solutions that improve soil fertility, crop productivity, and ecological balance. Her publications, patents, and books showcase a lifetime commitment to advancing science and technology, while her awards affirm the national recognition of her achievements. With a proven record of innovation, leadership, and impact, she stands as an exemplary candidate for the Best Researcher Award, embodying excellence in scientific research and dedication to societal advancement.

Junaid Khan | Physics and Astronomy | Excellence Award (Any Scientific Field)

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Dr. Junaid Khan | Physics and Astronomy | Excellence Award (Any Scientific Field)

Kohat University of Science and Technology | Pakistan

Dr. Junaid Khan is a distinguished physicist and academician from Pakistan, specializing in computational physics and material sciences. His expertise lies in nanotechnology, energy storage systems, and advanced computational modeling using Density Functional Theory. He has made significant contributions to the understanding of electronic, structural, and optical properties of novel compounds with applications in renewable energy, nanotechnology, and sustainable material development. As a Lecturer at Khushal Khan Khattak University, Karak, Dr. Junaid Khan has played an important role in advancing both research and teaching while contributing to academic leadership and student mentorship.

Professional Profile

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Education

Dr. Junaid Khan completed his Ph.D. in Physics from Kohat University of Science and Technology with a specialization in computational nano-fusion technology and material simulations. He obtained his M.Phil. in Physics from the University of Peshawar where his research focused on copper silicide as an anode material for lithium-ion batteries using Density Functional Theory. He earned his Bachelor of Science in Physics from the University of Malakand with a research emphasis on lithium-selenide-based batteries. In addition, he completed a Bachelor of Education in Physics from Allama Iqbal Open University, strengthening his role as both a scientist and educator. His academic background reflects a strong commitment to computational physics, material sciences, and educational excellence.

Experience

Dr. Junaid Khan has been serving as a Lecturer in the Department of Physics at Khushal Khan Khattak University, Karak. He has held important academic and administrative responsibilities including Chief Proctor, Coordinator for undergraduate programs, Exam Coordinator, and Lab In-charge. He has supervised numerous undergraduate and postgraduate theses in the field of material sciences, computational physics, and nanotechnology. He has organized and contributed to multiple seminars, workshops, and conferences on physics, material science, renewable energy, and advanced research methods. His expertise in simulation software such as VASP, CASTEP, WIEN2k, Gaussian, and SIESTA makes him highly proficient in conducting high-level computational research.

Research Interests

Dr. Junaid Khan’s research interests include hydrogen storage materials, adsorption and surface interactions, solar and fuel cell design, and lithium-ion battery systems. He focuses on computational studies of perovskite materials, nano and nanobiomaterials, bio-adhesive systems, and CO₂ dissociation mechanisms for energy-efficient processes. His work also explores thermoelectric, electronic, and photocatalytic applications of rare-earth and quantum materials. He maintains a strong interest in applying computational approaches to both energy materials and biomedical sciences, highlighting his multidisciplinary research outlook.

Awards

Dr. Junaid Khan has received multiple recognitions for his oral and poster presentations at national and international conferences. He has actively organized seminars on advanced physics and material sciences including topics on sodium-ion batteries, quantum physics, and global scholarship opportunities. His contributions as a researcher, mentor, and academic organizer have earned him recognition in scientific and educational communities, reflecting his dedication to promoting innovation and collaborative research.

Publications

Dr. Junaid Khan has published extensively in reputed international journals. His publications include:

Title: Electronic and optical properties of Tl₄GeX₃ (X = S, Se and Te) compounds for optoelectronics applications: Insights from DFT-computations
Journal: Journal of Materials Research and Technology
Published on: 2019

Title: Understanding the structural, electronic and optical properties of CuXY₂ (X = Si, Ge, Y = P, As): A DFT + U approach
Journal: Optik
Published on: 2020

Title: A new approach to study combination mixture organic solvent ethylene carbonate with lithium-ion for alkali-ion battery: A density functional theory study
Journal: Journal of Materials Research and Technology
Published on: 2021

Title: Determination of p-Dimethylaminobenzaldehyde by using a Briggs–Rauscher electrochemical oscillator
Journal: Russian Journal of Electrochemistry
Published on: 2021

Title: Structural, thermoelectric, electronic, and magnetic properties of pristine intermetallic rare-earth-based XMn₂Si₂ (X = Dy, Er) compounds
Journal: ECS Journal of Solid State Science and Technology
Published on: 2023

Title: Photoluminescence response and magnetic character of iron-doped ceria thin films
Journal: SSRN Electronic Journal (Preprint)
Published on: 2022

Title: Comprehensive analysis of novel cubic HgCrO₃ perovskite: A first principles, structural, thermodynamic, and magnetic properties study for spintronic applications
Journal: RSC Advances
Published on: 2023

Title: Quantum-dot sensitized hierarchical NiO p–n heterojunction for effective photocatalytic performance
Journal: RSC Advances
Published on: 2022

Conclusion

Dr. Junaid Khan is a highly accomplished physicist whose contributions to computational physics and material science stand out for their innovation and applicability in modern technologies. His research achievements, leadership roles, and strong commitment to both teaching and scientific advancement make him an outstanding candidate for the Excellence Award in any scientific field. His work continues to inspire students, researchers, and the broader scientific community while addressing critical global challenges in renewable energy and nanotechnology.

Nicolas Leuenberger | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

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Dr. Nicolas Leuenberger | Biochemistry, Genetics and Molecular Biology | Best Researcher Award

Swiss laboratory for Doping Analyses | Switzerland

Dr. Nicolas Leuenberger is a distinguished Privat-docent and Research Manager at the Swiss Laboratory for Doping Analyses, University Hospital of Lausanne. With a proven track record in forensic science and anti-doping research, he has contributed significantly to advancing methodologies for detecting blood doping and other performance-enhancing practices. His leadership in managing research projects, mentoring graduate students, and fostering international collaborations has positioned him as an influential figure in forensic and biomedical sciences.

Professional Profile

Scopus

Education

Dr. Nicolas Leuenberger holds a PhD in Biomedical Sciences and advanced qualifications in forensic and medical sciences, which laid the foundation for his career in anti-doping research. His academic background integrates molecular biology, biochemistry, and forensic medicine, enabling him to explore novel biomarkers of blood manipulation and enhance anti-doping practices worldwide.

Experience

With extensive experience as Research Manager at the Swiss Laboratory for Doping Analyses, Dr. Nicolas Leuenberger oversees both research operations and biological unit management. He directs master’s and PhD projects, guiding students from experimental design to thesis completion. As part of the LAD management team, he coordinates grant applications, establishes ISO-accredited protocols, and supervises multidisciplinary collaborations with hospital units and global anti-doping laboratories. His consultancy roles with Novartis Pharma Schweiz AG, the Research Grants Council of Hong Kong, and the World Anti-Doping Agency further demonstrate his expertise and international recognition.

Research Interests

Dr. Nicolas Leuenberger’s research focuses on the discovery of innovative biomarkers for blood doping, particularly through the fields of ironomics and transcriptomics. His pioneering work on erythroferrone and hepcidin as indicators of blood manipulation has reshaped anti-doping science. Currently, he is advancing mRNA biomarker detection from dried blood spots, enabling more accurate detection of autologous blood transfusions and micro-dose EPO administration. His commitment lies in developing cutting-edge forensic tools that safeguard the integrity of sports and public health.

Awards

Dr. Nicolas Leuenberger has been widely recognized for his contributions to forensic and anti-doping science. His editorial appointment as Associate Editor of Frontiers in Sport and Active Living and his membership in the Swiss Haematology Society underscore his professional standing. He has also been invited as an expert reviewer for the World Anti-Doping Agency and other international bodies, reflecting his global impact on anti-doping policy and scientific innovation.

Publications

Dr. Nicolas Leuenberger has authored over 45 peer-reviewed publications in leading scientific journals, significantly contributing to anti-doping and forensic biomarker research. A selection of his highly cited works includes:

1. Detection of erythropoiesis-stimulating agents in human anti-doping control: Past, present and future
Journal: Drug Testing and Analysis
Published on: July 2012

2. Circulating microRNAs as Biomarkers for Detection of Autologous Blood Transfusion
Journal: PLoS ONE
Published on: June 2013

3. Circulating microRNAs: The Future of Biomarkers in Anti-doping Field
Journal: Drug Testing and Analysis
Published on: December 2015

4. Autologous Blood Transfusion in Sports: Emerging Biomarkers
Journal: Transfusion Medicine Reviews
Published on: May 2016

5. mRNA Biomarkers in Dried Blood Spots May Improve Detection of Autologous Blood Micro-Transfusions Using an Individualized Approach
Journal: Haematologica
Published on: August 2025

6. High Pretransplant Levels of Erythroferrone Are Predictive for 1-Year All-Cause Mortality and Acute Cellular Rejection after Heart Transplantation
Journal: The Journal of Heart and Lung Transplantation
Published on: January 2025

7. New Transcriptomic Biomarkers for Detection of the Recombinant Human Erythropoietin (rHuEPO) MirCERA in Horses
Journal: Frontiers in Veterinary Science
Published on: September 2024

8. Comparison between standard hematological parameters and blood doping biomarkers in dried blood spots within the athlete population of Swiss Sport Integrity
Journal: Haematologica
Published on: September 2024

Conclusion

Dr. Nicolas Leuenberger exemplifies scientific excellence through his pioneering research in anti-doping biomarker discovery, his leadership at the Swiss Laboratory for Doping Analyses, and his dedication to mentoring the next generation of forensic scientists. His contributions have not only advanced the global fight against blood doping but also strengthened the integrity of competitive sports. For these reasons, he is a highly deserving candidate for the Best Researcher Award.

Akbar Nazari-Golshan | Physics and Astronomy | Best Researcher Award

Published on by Forensic Scientist

Assoc. Prof. Dr. Akbar Nazari-Golshan | Physics and Astronomy | Best Researcher Award

Shahed University | Iran

Dr. Akbar Nazari-Golshan is an Associate Professor of Physics at Shahed University, Tehran, Iran. He is internationally recognized for his groundbreaking research in computational physics, dusty plasma, semi-analytical methods, and fluid and nano-fluid dynamics. With more than fifty peer-reviewed articles published in prestigious journals and over five hundred citations, Dr. Akbar Nazari-Golshan has established himself as a leading authority in advancing both theoretical and applied physics. His academic journey is defined by dedication to scientific discovery, impactful teaching, and the mentoring of young scholars. Through his innovative approaches and sustained contributions, Dr. Akbar Nazari-Golshan has strengthened the role of physics in addressing complex scientific and industrial challenges.

Professional Profile

Scopus

Google Scholar

Education

Dr. Akbar Nazari-Golshan pursued his entire academic path in physics at Amir Kabir University of Technology, Tehran. He completed his Bachelor of Science in Physics, building a strong foundation in the principles of physical sciences. He continued with a Master of Science in Physics, where he explored advanced topics in theoretical modeling and computational analysis. His studies culminated in a Doctor of Philosophy in Physics, with research centered on computational methods and semi-analytical approaches to nonlinear physical systems. This progression provided Dr. Akbar Nazari-Golshan with comprehensive expertise, blending theoretical depth with applied problem-solving skills.

Experience

Dr. Akbar Nazari-Golshan began his academic career as a Senior Lecturer at Amir Kabir University of Technology, where he actively contributed to teaching and guiding research in physics. He later joined Shahed University, first as a Senior Lecturer, before advancing to the role of Assistant Professor of Physics. His outstanding contributions in both teaching and research earned him promotion to Associate Professor of Physics, a role he continues to hold with distinction. Dr. Akbar Nazari-Golshan has taught a wide range of subjects, from introductory physics for undergraduates to advanced courses such as computational physics, nonlinear dynamics, quantum mechanics, and magnetic properties of solids for postgraduate students. Alongside teaching, he has supervised numerous doctoral and master’s students, managed two major industrial research projects, and contributed to bridging academic research with industrial applications. His career reflects a balance of scholarship, mentorship, and applied innovation.

Research Interests

The research portfolio of Dr. Akbar Nazari-Golshan spans several specialized areas within physics. His primary focus is on computational physics and the design of semi-analytical methods to solve nonlinear and complex systems. He has made significant contributions to the study of dusty plasma, deepening the understanding of its properties in laboratory and astrophysical settings. His work in fluid and nano-fluid dynamics has advanced computational simulations with applications in applied science and engineering. Additionally, Dr. Akbar Nazari-Golshan is active in nonlinear dynamics, plasma oscillations, and wave propagation, providing theoretical frameworks that are widely cited and used across multiple research domains. His interdisciplinary approach ensures that his research outcomes have both scientific and practical significance.

Awards

Dr. Akbar Nazari-Golshan has been honored for his academic achievements, innovative research, and outstanding contributions to teaching and student mentorship. His leadership in managing industrial projects has been widely acknowledged, reflecting his ability to apply theoretical expertise to practical solutions. His publication record, combined with strong international citations, has earned him recognition from the scientific community. Furthermore, Dr. Akbar Nazari-Golshan’s impact as a supervisor and educator highlights his lasting contributions to the academic and professional development of future physicists. His record of consistent excellence underlines his suitability for prestigious recognition such as the Best Researcher Award.

Publications

Dr. Akbar Nazari-Golshan has authored more than fifty peer-reviewed publications in top-tier international journals, with his research being cited extensively by global scholars. Selected publications include:

Title: On the exact solution of Newell-Whitehead-Segel equation using the homotopy perturbation method
Journal: arXiv preprint arXiv
Published on: 2015
Citation: 113

Title: On the exact solution of Burgers-Huxley equation using the homotopy perturbation method
Published on: 2015
Citation: 67

Title: A modified homotopy perturbation method coupled with the Fourier transform for nonlinear and singular Lane–Emden equations
Journal: Applied Mathematics Letters
Published on: 2013
Citation: 62

Title: On the homotopy perturbation method for the exact solution of Fitzhugh–Nagumo equation
Journal: International Journal of Mathematics & Computation
Published on: 2015
Citation: 39

Title: On the hybrid of Fourier transform and Adomian decomposition method for the solution of nonlinear Cauchy problems of the reaction-diffusion equation
Published on: 2012
Citation: 28

Title: A new modification to homotopy perturbation method combined with Fourier transform for solving nonlinear Cauchy reaction diffusion equation
Journal: Indian Journal of Physics
Published on: 2015
Citation: 27

Title: Investigation of nonextensivity trapped electrons effect on the solitary ion-acoustic wave using fractional Schamel equation
Journal: Physics of Plasmas
Published on: 2016
Citation: 26

Conclusion

Dr. Akbar Nazari-Golshan is a distinguished academic and researcher whose career reflects sustained excellence in both research and teaching. His contributions to computational physics, dusty plasma, fluid and nano-fluid dynamics, and semi-analytical methods have left a lasting impact on the global scientific community. With an extensive publication record, strong citation impact, leadership in industrial collaborations, and dedication to mentoring young researchers, Dr. Akbar Nazari-Golshan exemplifies the qualities of an outstanding scholar and innovator. His remarkable achievements make him an exemplary candidate for the Best Researcher Award.