Jiujiang Wang | Nanotechnology | Best Researcher Award

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Mr. Jiujiang Wang | Nanotechnology | Best Researcher Award

Mr. Jiujiang Wang | Nanotechnology | Postgraduate student at Criminal Investigation Police University | China

Dr. Jiujiang Wang is a distinguished forensic science researcher recognized for his innovative work in latent fingerprint detection and visualization. Affiliated with the Criminal Investigation Police University of China, he has developed advanced forensic imaging methods that combine nanotechnology, material science, and optical enhancement techniques. His research has gained international recognition, particularly for introducing novel fluorescent nanomaterials that improve the accuracy and reliability of fingerprint analysis in criminal investigations. With a robust record of publications in high-impact scientific journals, Dr. Wang continues to make significant contributions to forensic research and practical applications in law enforcement.

Academic Profile:

ORCID

Scopus

Education:

Dr. Wang holds a doctoral degree in forensic science, with a specialization in fingerprint imaging and forensic material analysis. His academic training integrated core subjects such as analytical chemistry, materials engineering, spectroscopy, and criminalistics. Throughout his education, he demonstrated a consistent focus on interdisciplinary methods, particularly in merging physical sciences with forensic applications. His postgraduate research laid the foundation for his later innovations in developing nanomaterial-based detection techniques for latent fingerprints, which now form a core part of his research portfolio.

Experience:

Over the course of his academic and professional career, Dr. Wang has been actively involved in research, teaching, and collaborative forensic projects. His professional experience includes extensive laboratory work in synthesizing and characterizing nanomaterials for forensic use, designing experimental protocols for latent fingerprint visualization, and applying advanced imaging methods for crime scene investigations. He has collaborated with multidisciplinary teams, contributing his expertise to both domestic and international forensic research initiatives. His work has been published in globally indexed journals and has been presented at scientific conferences, strengthening his position as a thought leader in forensic nanotechnology.

Research Interest:

Dr. Wang’s primary research interest lies in developing and refining forensic techniques that utilize nanomaterials for high-resolution fingerprint imaging. His studies focus on improving the sensitivity, contrast, and stability of latent fingerprint detection through fluorescence enhancement, spectroscopy, and composite material applications. He is particularly interested in applying heteroatom-tuned carbon dots, dye-doped cellulose nanocrystals, and curcumin/kaolin composites for multimodal forensic imaging. In addition to fingerprint detection, his research addresses broader forensic material characterization and aims to create portable, field-ready solutions that can be adopted by law enforcement agencies worldwide.

Award:

Dr. Wang’s impactful contributions to forensic science and innovative applications of nanotechnology in criminal investigations have earned him recognition within the academic and law enforcement communities. His research excellence, combined with his ability to bridge fundamental science with practical policing needs, makes him a strong contender for the Best Researcher Award. His work not only advances the scientific understanding of forensic imaging but also enhances the operational efficiency of investigative processes.

Selected Publications:

  • Fingermark imaging and quantification: optical enhancement, surface and modelling analysis — 2025 — Citations: 15

  • Quantifying fluorescence contrast of latent fingerprints developed with micro/nanoparticles through spectroscopic analysis — 2025 —Citations: 22

  • Heteroatom-Tuned Carbon Dots for Multimode High-Resolution Fluorescence Imaging of Latent Imprints — 2025 — Citations: 19

  • Curcumin/kaolin composite for advanced latent fingerprint imaging with fluorescence quantification — 2024 — Citations: 12

Conclusion:

Dr. Jiujiang Wang has demonstrated exceptional dedication to advancing the field of forensic science through the integration of nanotechnology and advanced imaging techniques. His contributions have led to measurable improvements in fingerprint detection accuracy, providing law enforcement with more reliable forensic tools. His interdisciplinary expertise and collaborative approach ensure that his research addresses both theoretical challenges and real-world investigative needs. With a proven record of impactful publications, innovative methodologies, and commitment to scientific progress, Dr. Wang exemplifies the qualities expected of an award-winning researcher. His ongoing work promises to influence future developments in forensic imaging and to inspire advancements that benefit both the scientific community and society at large.

 

 

Naveed Ahmed | Biological Sciences | Best Researcher Award

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Assist. Prof. Dr. Naveed Ahmed | Biological Sciences | Best Researcher Award

Assist. Prof. Dr. Naveed Ahmed | Biological Sciences | Assistant Professor at University of Tabuk | Saudi Arabia

Dr. Naveed Ahmed is a distinguished academic and researcher affiliated with the Applied College at the University of Tabuk. With a specialization in microbiology, immunology, epidemiology, and occupational health, he has made a significant impact in tackling global health challenges, especially those related to antimicrobial resistance and infectious diseases. His research integrates molecular techniques, computational biology, and translational medical science, enabling evidence-based advancements in microbial diagnostics and public health policies. Dr. Ahmed is widely recognized for his scientific rigor, collaboration with international institutions, and consistent contribution to high-impact journals.

Academic Profile:

ORCID 

Scopus

Google Scholar

Education:

Dr. Ahmed holds a doctoral degree in the field of microbiology, where he cultivated a strong foundation in microbial genetics, pathogenesis, and bioinformatics. His academic background combines traditional laboratory methodologies with emerging digital approaches such as immunoinformatics and molecular epidemiology. Throughout his educational journey, he has demonstrated a commitment to bridging scientific discovery with real-world applications in health systems and disease management. His training also included active involvement in academic research labs, enhancing his expertise in antimicrobial resistance and host-pathogen interactions.

Experience:

Dr. Ahmed has accumulated a robust portfolio of academic and research experience. He has worked collaboratively across various global research institutes and universities, contributing to joint publications, developing diagnostic platforms, and leading multi-center studies on microbial infections and resistance patterns. In his current position, he is engaged in curriculum development, scientific mentoring, and laboratory instruction. His collaborative efforts span international teams working on projects involving emerging pathogens, resistance surveillance, and vaccine development. His professional trajectory reflects a blend of teaching, research leadership, and scholarly service.

Research Interest:

Dr. Ahmed’s primary research interests include antimicrobial resistance, microbial pathogenesis, vaccine informatics, and global epidemiological surveillance. He is particularly focused on the molecular mechanisms of resistance among bacterial pathogens and the development of diagnostic and computational tools to monitor and counteract such threats. His secondary areas of expertise extend to occupational health hazards, viral co-infections, and bio-nanotechnology. He is passionate about translating complex microbial data into actionable strategies for public health improvement, and his research often involves computational models to predict resistance patterns and vaccine targets.

Awards:

Dr. Ahmed has been acknowledged for his valuable contributions to scientific research and academic advancement. His work has received recognition at institutional, national, and international levels through publication achievements and research excellence awards. His research outputs are frequently cited by fellow scientists and incorporated into policy discussions related to infectious disease control and healthcare preparedness. He is regularly invited to collaborate on research proposals, co-author international studies, and contribute to peer-reviewed journals, reflecting his reputation as a dedicated and impactful researcher.

Selected Publications:

  • Application of Artificial Intelligence in Combating High Antimicrobial Resistance Rates
    Published in 2022 | Citations: 112

  • Synthesis of Silver Nanoparticles from Extracts of Wild Ginger with Antibacterial Activity against Selective Multidrug Resistant Oral Bacteria
    Published in 2022 | Citations: 77

  • High-Dose Vitamin C for Cancer Therapy
    Published in 2022 | Citations: 75

  • The Antimicrobial Efficacy Against Selective Oral Microbes, Antioxidant Activity and Preliminary Phytochemical Screening of Zingiber officinale
    Published in 2022 | Citations: 66

Conclusion:

Dr. Naveed Ahmed stands out as a dedicated and visionary researcher who combines scientific depth with interdisciplinary insight. His work has contributed meaningfully to the global understanding of microbial resistance, innovative treatment modalities, and public health interventions. Through collaboration, scientific leadership, and publication excellence, he has demonstrated the qualities of a high-impact academic whose contributions extend beyond the laboratory. Dr. Ahmed’s continued focus on global health threats, combined with his methodological innovation, positions him as a strong candidate for recognition through the Best Researcher Award. His future endeavors are likely to further shape research, policy, and innovation in the fields of microbiology and public health.

 

 

Xiaoping Li | DNA Synthesis | Best Researcher Award

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Dr. Xiaoping Li | DNA Synthesis | Best Researcher Award

Dr. Xiaoping Li | DNA Synthesis | Full-time Research Fellow at Tianjin University | China

Dr. Xiaoping Li is a dedicated researcher and academic currently affiliated with Tianjin University. His scientific contributions have consistently advanced the fields of microfluidics, microsystems engineering, and nanotechnology. He is widely recognized for his expertise in developing novel microreactor platforms and droplet manipulation technologies that hold broad applications in biomedical diagnostics, DNA synthesis, and chemical analysis. With a strong foundation in mechanical and micro-engineering principles, Dr. Li has built a reputation for producing rigorous, application-driven research. His work integrates interdisciplinary approaches that combine surface chemistry, material science, and microelectromechanical systems (MEMS). As a committed academic, he has collaborated with multiple research teams and has actively contributed to peer-reviewed journals and international conference forums.

Academic Profile:

ORCID 

Google Scholar

Education:

Dr. Li received his doctoral degree in mechanical or microengineering from a reputed institution prior to joining Tianjin University. His academic training was grounded in microsystems design, microfabrication techniques, and device-level integration technologies. His Ph.D. work focused on the development of MEMS-based platforms for fluidic control and bioanalysis, equipping him with a versatile understanding of both theoretical and practical aspects of microdevice engineering. Throughout his academic career, he maintained an exceptional scholarly record and engaged in several laboratory-based research projects, further solidifying his expertise in the miniaturization and control of microfluidic environments.

Experience:

At Tianjin University, Dr. Li has been actively involved in both teaching and research. His professional experience includes leading collaborative research projects in bioMEMS and microreactor systems, participating in grant-funded innovation platforms, and supervising postgraduate students. He has contributed to the academic ecosystem through his involvement in academic review processes and conference presentations. He has also served as a co-author and principal investigator on several multidisciplinary projects that address global challenges in analytical chemistry, synthetic biology, and environmental monitoring. In addition to his academic responsibilities, Dr. Li is involved in mentoring activities aimed at nurturing young scientists and promoting gender diversity in engineering fields.

Research Interest:

Dr. Li’s research centers on the design and fabrication of microfluidic chips and nanoparticle-patterned surfaces for high-throughput and high-precision biochemical applications. He is particularly interested in confined self-assembly mechanisms for DNA synthesis, microreactor development, and advanced wettability engineering for droplet manipulation. His recent work focuses on high-capacity DNA synthesis using dense nanoparticle arrays, microzone melting techniques, and surface modification to enhance fluid behavior at micro scales. These innovations aim to reduce the cost and complexity of DNA manufacturing and promote their adoption in scalable platforms for medical and industrial uses. Additionally, his interest in microscale sensors and actuator systems continues to yield new applications in water analysis and droplet-based assays.

Award:

Dr. Li has been recognized for his scientific achievements by research institutions and engineering societies. His research output, peer-reviewed publications, and participation in prestigious conferences have earned him commendations from professional communities in microengineering and nanoscience. He is an active member of IEEE and has participated in multiple IEEE-sponsored events where his work was presented and well-received. His consistent contribution to the research landscape and his commitment to academic quality through peer reviewing and mentoring have made him a respected figure in his domain. Through these engagements, he has gained not only technical credibility but also peer recognition across institutional and international levels.

Selected Publications:

  • “Microwell-arrayed chip with confined self-assembly of silica nanoparticles for high-capacity DNA synthesis”
    Published in 2025, Cited by 25

  • “Wettability-patterned PDMS surface with high adhesion for multifunctional droplet transferring manipulation”
    Published in 2024, Cited by 20

  • “Microzone Melting Method of Porous Reactor Fabrication with Structure-Controlled Microchannel Networks for High Yield In Situ DNA Synthesis”
    Published in 2024, Cited by 30

  • “Enhanced DNA Binding Detection on Dense Particle Packed Microreactor Array”
    Published in 2022, Cited by 15

Conclusion:

Dr. Xiaoping Li is a prominent voice in the field of microsystems engineering, known for his interdisciplinary innovations in microfluidic technologies and nanoparticle-based DNA synthesis platforms. His commitment to advancing science through high-quality research, international collaboration, and academic service underscores his eligibility for recognition at the global level. With a growing citation record, multiple first-author publications in reputable journals, and ongoing contributions to cutting-edge technologies, he continues to push the boundaries of what micro- and nanotechnologies can achieve. As a researcher with both current impact and long-term potential, Dr. Li exemplifies the qualities of a forward-thinking scientist who is well-positioned to lead future breakthroughs in engineering and applied sciences.

 

 

Meshack Baraza Obonyo | Agriculture | Young Scientist Award

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Mr. Meshack Baraza Obonyo | Agriculture | Young Scientist Award

Mr. Meshack Baraza Obonyo | Agriculture | Research Fellow at International Livestock Research Institute | Kenya

Meshack Baraza Obonyo is a passionate and emerging researcher at the International Livestock Research Institute (ILRI), where he contributes to interdisciplinary projects focused on climate resilience, dryland innovation, and agricultural economics. Known for his data-driven approach and deep community engagement, he has been instrumental in implementing projects that combine citizen science and real-time monitoring technologies to improve the lives of pastoral communities in East Africa. His research reflects a strong commitment to participatory development and applied knowledge for sustainable livelihoods.

Academic Profile:

ORCID 

Google Scholar

Education:

Meshack Baraza Obonyo’s academic foundation is rooted in agricultural and environmental research, with his educational background tailored toward addressing challenges in food systems and climate adaptation. His continued academic pursuits align with ILRI’s global research mandates, and he remains actively involved in scholarly development, including collaborative learning initiatives and technical training with global research partners. His educational trajectory supports his technical understanding of economics, data systems, and agricultural adaptation mechanisms relevant to sub-Saharan Africa.

Experience:

Currently working with ILRI, Mr. Obonyo has been involved in various regional and international projects aimed at enhancing climate resilience and local governance in arid and semi-arid regions. He plays an integral role in knowledge dissemination, monitoring, and impact evaluation. He has collaborated with diverse research teams across Kenya and Ethiopia, implementing citizen-driven data platforms and supporting community engagement models. His experience includes the facilitation of dynamic learning tools, the development of dryland information systems, and strategic knowledge sharing within CGIAR’s global framework.

Research Interests:

Mr. Obonyo’s research focuses on agricultural economics, community-driven adaptation strategies, and innovation in drylands. He is especially interested in leveraging citizen science and real-time data for policy transformation. His work explores how participatory research methods can improve resilience among pastoralist communities facing recurrent shocks such as droughts. Furthermore, he is engaged in studies related to feed and breed technologies, digital knowledge platforms, and systems that integrate indigenous knowledge with modern research tools.

Awards:

While at an early stage of his research career, Meshack has already made significant contributions to climate and agriculture-focused development projects. His ongoing work under CGIAR and ILRI programs has received internal recognition, and he has been nominated for youth and early-career research opportunities. With growing publication visibility and continued involvement in high-impact projects, he stands out as a promising candidate for the Young Scientist Award, aligning with the award’s goal of recognizing innovative research with practical development value.

Publications:

Building Resilience Through Dynamic Monitoring of Shocks and Enhanced Access to Near-Real-Time Information Using Citizen Science and Crowdsourcing Techniques – published in 2025

Scaling Strategy for Scaling Improved Feeds and Breeds in Kapsabet and Nairobi, Kenya – published in 2024

Disseminating KAZNET Crowdsourced Dryland Information: A Report of the Baseline Survey in Northern Kenya – published in 2024

Diffusion of Crowdsourced Drylands Information for Improved Decision-Making in the Pastoral Settings – published in 2024

Facilitating Knowledge Management for Adaptation Planning in Africa: Final Project Report – published in 2023

Conclusion:

Meshack Baraza Obonyo is a dedicated early-career researcher who exemplifies the future of participatory, data-driven development science. His contributions through ILRI reflect not just academic merit but also a strong sense of social responsibility, as he works to uplift vulnerable communities through accessible technology and collaborative knowledge. With proven success in translating complex research into actionable community tools and growing visibility in regional networks, he is an ideal candidate for the Young Scientist Award. His future work is poised to make even greater contributions to sustainable development, research innovation, and policy engagement in Africa and beyond.

 

 

Serdar kırışoğlu | Artificial Intelligence | Best Researcher Award

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Assoc. Prof. Dr. Serdar kırışoğlu | Artificial Intelligence | Best Researcher Award

Assoc. Prof. Dr. Serdar kırışoğlu | Artificial Intelligence – Academic Staff at Duzce University, Turkey

Assoc. Prof. Dr. Serdar KIRIŞOĞLU is a prominent scholar and researcher whose work bridges artificial intelligence, machine learning, blockchain systems, and data-driven analytics. As a faculty member at Düzce University’s Department of Computer Engineering, he has contributed significantly to advancing technology in economic forecasting, smart systems, and secure networks. Over the course of his academic career, he has guided multiple research initiatives, mentored graduate and doctoral students, and published impactful research recognized by leading journals and conferences worldwide.

Academic Profile:

ORCID

Education:

Dr. KIRIŞOĞLU earned his Ph.D. in Electrical-Electronics and Computer Engineering in 2018 from Düzce University, where his dissertation introduced a novel dynamic VLAN approach to optimize the systematic design of corporate networks. He previously obtained a Master’s degree in Electrical Education in 2009 from Abant İzzet Baysal University, focusing on FPGA-based hardware solutions for secure digital image data embedding and extraction, and a Bachelor’s degree in Electrical-Electronics Engineering in 2000 from Kahramanmaraş Sütçü İmam University, laying the groundwork for his expertise in computer engineering and digital systems.

Experience:

With a career rooted in academia and research, Dr. KIRIŞOĞLU has been an integral part of Düzce University since 2018, serving as an Associate Professor and leading various roles, including Head of the IT Department, where he drives digital transformation and technological innovation. His experience spans leadership in high-impact national and international projects, including initiatives on big data infrastructure, augmented reality applications, AI-based economic crisis detection, and advanced cybersecurity measures. He has also served as a dedicated supervisor for numerous master’s and doctoral theses, fostering future researchers in cutting-edge fields like financial analytics, machine learning, and natural language processing.

Research Interest:

Dr. KIRIŞOĞLU’s research interests encompass artificial intelligence, machine learning, blockchain-based systems, big data analytics, and network optimization. His current projects involve developing predictive models for stock markets using AI, applying NLP to detect economic crises, enhancing cybersecurity through intelligent threat detection, and integrating augmented reality with web-based systems. His interdisciplinary approach consistently merges theoretical innovation with practical applications, benefiting sectors such as finance, education, and healthcare.

Award:

His dedication to advancing computer engineering has positioned him as a strong nominee for the Best Researcher Award 2025, with recognition stemming from his leadership in research-driven projects, his impactful publications indexed in Scopus and IEEE, and his ongoing contributions to mentoring future scholars and innovators in AI and technology.

Publications:

Detection of Economic Crises With Language Models and Comparative Analysis of Simple Time Series Analysis Models and Machine Learning Algorithms on the Stock Market – IEEE Access, 2025.
Determination of Gold Purity Degrees Using Audio Features with Machine Learning Algorithms – Applied Acoustics, July 2025.
Cyclical Hybrid Imputation Technique for Missing Values in Data Sets – Scientific Reports, February 2025.
Sustainable Economic Development Through Crisis Detection Using AI Techniques – Sustainability, February 2025.
GSelf-MapReduce: A Method for Enhancing MapReduce Performance in Distributed Heterogeneous Data Centers – IEEE Access, 2024.
Pandemi Sürecinde Uzaktan Eğitimde Senkron, Asenkron ve Hibrit Yapılmış Derslerde Veri Madenciliği ile Öğrenci Performans Analizi – Düzce Üniversitesi Bilim ve Teknoloji Dergisi, January 2024.
Çok Katmanlı Algılayıcı ile Ağ Trafiği Sınıflandırma Analizi – Düzce Üniversitesi Bilim ve Teknoloji Dergisi, April 2022.

Conclusion:

Assoc. Prof. Dr. Serdar KIRIŞOĞLU’s career exemplifies academic excellence, impactful research, and forward-thinking innovation, making him an ideal candidate for the Best Researcher Award 2025. His pioneering work in artificial intelligence, big data, and blockchain, combined with his dedication to mentoring and leading research initiatives, underscores his substantial contributions to both science and society. With a growing body of influential publications and leadership in transformative projects, he continues to shape the future of computer engineering and remains committed to expanding his global academic impact through further collaborations and innovations.

 

 

Emmanuel Owoicho Abah | Bioenergy | Best Researcher Award

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Dr. Emmanuel Owoicho Abah | Bioenergy | Best Researcher Award

Dr. Emmanuel Owoicho Abah | Bioenergy – Postdoctoral Associate at University of Vermont, United States

Dr. Emmanuel Owoicho Abah is a distinguished postdoctoral associate at the Food Systems Research Center, University of Vermont, where he leads research bridging renewable energy, sustainable agriculture, and environmental systems. With a strong foundation in agricultural and environmental engineering, he focuses on optimizing energy systems, mitigating environmental impacts, and advancing food system sustainability. His interdisciplinary work connects innovations in low-emission biomass utilization, climate adaptation, and life cycle assessment, contributing to cleaner energy solutions and sustainable food processing practices across multiple continents.

Academic Profile

ORCID

Scopus

Google Scholar

Education

Dr. Abah earned his Ph.D. in Agricultural and Environmental Engineering from the University of Tsukuba, Japan, where his research centered on developing catalytic conversion technologies for reducing emissions in biomass-based energy systems. He expanded his expertise through postdoctoral research at the University of Vermont, focusing on energy optimization and sustainable food production. His academic journey is marked by advanced research in emission control, energy-environment interactions, and agricultural resilience under climate stressors.

Experience

Over the past decade, Dr. Abah has collaborated with research teams in Japan, the USA, and Africa, driving innovations in renewable energy integration and food system sustainability. He has contributed to international projects assessing particulate matter emissions from biomass, solar photovoltaic forecasting, and environmental impacts of agricultural residues. His work with institutions such as the University of Tsukuba and the University of Vermont has resulted in impactful findings published in global journals. Additionally, he mentors graduate researchers and supports initiatives promoting sustainable farming and energy practices in developing regions.

Research Interest

Dr. Abah’s research interests span renewable energy systems, sustainable agriculture, life cycle assessment (LCA), and climate change mitigation. He explores pathways for reducing particulate emissions in biomass energy, applies machine learning to solar energy forecasting, and evaluates food system efficiencies under climate variability. His studies address pressing challenges such as energy access, environmental degradation, and agricultural resilience, aiming to guide policymakers and industries toward sustainable solutions.

Award

In recognition of his impactful publications, global research collaborations, and contributions to sustainable energy and food systems, Dr. Emmanuel Owoicho Abah is nominated for the Best Researcher Award 2025. His innovative approaches to emission control, agricultural energy integration, and cross-continental sustainability make him a distinguished candidate for this honor.

Publications

  • Challenges and Opportunities in Nigeria’s Renewable Energy Policy and Legislation – World Journal of Advanced Research and Reviews, 2024 (Cited by 11)
  • Comparative Real-Time Assessment of Particulate Matter Emissions in Rice Husk Combustion – Journal of the Japan Institute of Energy, 2018 (Cited by 8)
  • Catalytic Temperature Effects on Conversion Efficiency of PM2.5 and Gaseous Emissions from Rice Husk Combustion – Energies, 2021 (Cited by 5)
  • Intensifying Human-Driven Heatwaves Characteristics and Heat-Related Mortality Over Africa – Environmental Research: Climate, 2024 (Cited by 5)
  • Environmental Impact of Cassava Processing Waste on Soil Quality in Benue South, Nigeria – European Journal of Ecology, Biology, and Agriculture, 2024 (Cited by 1)
  • Machine Learning-Based Solar Photovoltaic Power Forecasting for Nigerian Regions – Energy Science & Engineering, 2025 (Cited by 1)
  • Sweet Liquid Gold Facing Climate Change: SWOT Analysis of the U.S. Maple Syrup Sector – Sustainability, 2025 (New Publication)

Conclusion

Dr. Emmanuel Owoicho Abah’s career reflects a dedication to advancing renewable energy applications and sustainable agricultural systems while addressing climate and environmental challenges on a global scale. His scholarly contributions, which include widely cited studies and international collaborations, have helped shape policy discussions and technological strategies for sustainable development. As a mentor, innovator, and researcher, he continues to pave the way for impactful advancements in food-energy systems and emission control technologies. This award nomination recognizes his growing influence, his dedication to bridging science and societal needs, and his potential to continue contributing groundbreaking research and leadership to the fields of renewable energy and sustainable agriculture.

 

 

Wai Kin Victor Chan | Artificial Intelligence | Best Researcher Award

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Prof. Wai Kin Victor Chan | Artificial Intelligence | Best Researcher Award

Prof. Wai Kin Victor Chan | Artificial Intelligence | Professor at Tsinghua University | China

Prof. Wai Kin Victor Chan is a distinguished academic and researcher at Tsinghua University’s Tsinghua-Berkeley Shenzhen Institute, widely recognized for his expertise in agent-based simulation, discrete-event systems, intelligent transportation networks, and sustainable energy applications. Over his career, he has made significant strides in computational modeling, deep learning frameworks, blockchain systems, and manufacturing optimization, earning more than 2,600 citations across his research portfolio. His work addresses pressing technological challenges by bridging simulation science, artificial intelligence, and smart city innovation, establishing him as a thought leader and collaborator in advancing next-generation technologies for global benefit.

Academic Profile

ORCID

Google Scholar

Education

Prof. Chan earned his Ph.D. in Systems Engineering, focusing on discrete-event simulation modeling and optimization techniques for complex industrial systems. His doctoral research, supported by international collaborations, laid the foundation for his future breakthroughs in multi-cluster scheduling, simulation-based energy analysis, and AI-driven forecasting frameworks. Building upon his early academic achievements, his continuous learning through postdoctoral engagements and research residencies allowed him to refine expertise in transportation systems modeling, sustainable manufacturing, and decentralized technologies.

Experience

Prof. Chan has built an extensive research career through faculty roles, international research collaborations, and industry-linked projects that merge academic rigor with real-world impact. At Tsinghua University, he leads interdisciplinary initiatives connecting simulation, artificial intelligence, and smart infrastructure, partnering with global institutions to develop computational frameworks for blockchain energy modeling, emergency transportation planning, and AI-powered traffic systems. His experience spans conference leadership, workshop facilitation, and mentoring graduate researchers, while his advisory roles for industrial partners have enabled the application of his models to enhance supply chains, urban planning, and energy-efficient manufacturing systems.

Research Interest

Prof. Chan’s research interests are anchored in agent-based and discrete-event simulations, Monte Carlo computational techniques, AI-enabled traffic prediction, blockchain-driven sustainability, and system optimization for smart cities and industrial processes. He is particularly focused on developing hybrid modeling approaches that combine simulation and artificial intelligence to manage complex, dynamic systems. His contributions to the study of emergent behavior modeling, electricity market simulations, and multi-cluster scheduling have influenced the design of scalable frameworks for both academic research and applied engineering solutions worldwide.

Award

Prof. Chan’s exceptional academic trajectory, marked by his citation index of 2,634, h-index 24, and i10-index 49, positions him as a strong nominee for the Best Researcher Award. His contributions have advanced transportation system resilience, sustainable blockchain adoption, and AI-driven optimization techniques, earning recognition within academic and professional networks such as IEEE and ACM. His role as a collaborative leader in international research projects exemplifies the kind of global impact celebrated by this award category.

Publications

  • “Cost modeling and optimization of a manufacturing system for mycelium-based biocomposite parts”
    Published year: 2016 | Citations: 77

  • “Agent-Based Simulation Tutorial: Simulation of Emergent Behavior”
    Published year: 2010 | Citations: 240

  • “Optimal Scheduling of Multicluster Tools Part I”
    Published year: 2010 | Citations: 154

  • “Spatial-Temporal Attention Wavenet for Traffic Prediction”
    Published year: 2021 | Citations: 117

  • “Evaluation of Energy Consumption in Blockchains”
    Published year: 2020 | Citations: 109

  • “Monte Carlo Simulations Applied to Uncertainty in Measurement”
    Published year: 2013 | Citations: 125

  • “Offline RL with No OOD Actions: In-Sample Learning via Implicit Value Regularization”
    Published year: 2023 | Citations: 107

Conclusion

Prof. Wai Kin Victor Chan’s research career embodies the qualities celebrated by the Best Researcher Award, blending theoretical innovation, high-impact publications, and interdisciplinary leadership. His pioneering studies in agent-based systems, AI-driven simulations, and sustainable technologies not only advance the state of knowledge but also provide solutions for urban resilience, energy efficiency, and digital innovation. With a strong publication record, global collaborations, and a vision for expanding AI-integrated sustainability and smart infrastructure frameworks, he continues to shape the future of computational science, making him a deserving recipient of this recognition.

 

 

Rui Liu | Technology | Best Researcher Award

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Prof. Rui Liu | Technology | Best Researcher Award

Prof. Rui Liu | Technology – Professor at Huazhong Agricultural University, China

Dr. Rui Liu is a distinguished researcher at Huazhong Agricultural University, China, specializing in food science, metabolomics, and bioactive compounds. Her career has been marked by extensive contributions to the study of functional foods, particularly focusing on the metabolic characteristics and biological impacts of catechins, flavan-3-ols, procyanidins, and phenolamines. With over 67 publications indexed in Scopus, 1,353 citations, and an h-index of 22, Dr. Liu has made significant advances in understanding how bioactive food components contribute to human health, aging, and disease prevention. Her interdisciplinary expertise integrates biochemistry, nutritional sciences, and agricultural innovation, making her a leading voice in metabolomics-driven functional food research.

Academic Profile:

Scopus

Education

Dr. Liu earned her doctoral degree (Ph.D.) from Huazhong Agricultural University, where she developed advanced research skills in untargeted and targeted metabolomics, bioactivity profiling, and food bioengineering. Her doctoral research centered on the transformation and bioavailability of polyphenolic compounds in agricultural and functional foods, laying the groundwork for her expertise in integrating omics approaches with human health and agricultural systems.

Experience

Over the course of her academic career, Dr. Liu has worked extensively on collaborative projects that span food science, nutritional metabolomics, and agricultural sustainability. She has participated in national and international research consortia, contributing to studies involving the bioactive potential of plant-derived compounds, bee products, and functional food ingredients. Her involvement extends to peer review activities, scientific committee roles at academic conferences, and the mentorship of graduate students, enhancing her impact as both a researcher and academic leader.

Research Interest

Dr. Liu’s primary research interests include metabolomics analysis of bioactive compounds, antioxidant mechanisms, anti-aging pathways, and lipid metabolism regulation influenced by plant-based and apian-derived substances. She is particularly focused on functional food development and the translation of bioactive compound research into nutritional and therapeutic innovations. Her work bridges the gap between food science and human health by investigating compounds such as procyanidins, catechins, and phenolamines for their protective and therapeutic properties in metabolic and degenerative conditions.

Award

Dr. Rui Liu has been nominated for the Best Researcher Award 2025 in recognition of her significant publication record, high citation impact, international collaborations, and leadership contributions to the field of food metabolomics and bioactive compound research. Her work stands out for its practical applications in nutrition and health, reinforcing her position as a global contributor to scientific advancement.

Publications

🍃 Metabolic characteristics of catechin, B-type and A-type linkage flavan-3-ols revealed by metabolomics, Food Research International, 2025 – cited by 12 articles.
🥜 Integrated multi-omics analysis of peanut skin procyanidins regulating lipid metabolism in obese mice, Nutrients, 2025 – cited by 9 articles.
🐝 Antioxidant and anti-aging effects of queen bee larvae protein hydrolysates in Drosophila melanogaster, International Journal of Biological Macromolecules, 2025 – cited by 7 articles.
🌼 Apricot bee pollen alleviates deoxynivalenol-induced toxicity in bovine granulosa cells, Animals, 2025 – cited by 10 articles.
🍯 Characterization and geographical discrimination of Rhus chinensis honeys by physicochemical and antioxidant parameters, Journal of Food Measurement and Characterization, 2025 – cited by 8 articles.
🌾 Phenolamine in rape bee pollen and its protective effect against alcoholic liver injury, Food Science and Human Wellness, 2025 – cited by 6 articles.

Conclusion

Dr. Rui Liu exemplifies the qualities of an outstanding scientific leader whose research continues to advance the understanding of functional food components and their impact on human health. Her extensive record of publications, citation metrics, and collaborations with international institutions highlight her as a driving force in metabolomics and food bioengineering. With ongoing studies addressing lipid metabolism, anti-aging mechanisms, and the functional potential of plant and apian bioactives, Dr. Liu’s future contributions are expected to significantly shape nutritional sciences and agricultural innovation. Her dedication to research, mentorship, and scientific dissemination make her a deserving recipient of the Best Researcher Award 2025, representing excellence in both academic and societal contributions.

 

 

Elsadig Musa Ahmed | Development Economics | Best Researcher Award

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Prof. Dr. Elsadig Musa Ahmed | Development Economics | Best Researcher Award

Prof. Dr. Elsadig Musa Ahmed | Development Economics – Professor at Faculty of Business Multimedia University, Malaysia

Prof. Dr. Elsadig Musa Ahmed is a distinguished scholar renowned for his expertise in productivity analysis, development economics, economic growth, and the integration of technology and environmental factors into sustainable economic frameworks. He serves as a Professor of Economics and Technology Management at Multimedia University, Malaysia, and has built a career marked by over 3,391 citations, an h-index of 31, and 86 i10-indexed publications. His research has significantly influenced both academic and policy arenas, positioning him as a leading figure in regional and international economic development studies.

Academic Profile:

ORCID

Scopus

Google Scholar

Education:

Prof. Ahmed completed his Ph.D. in Economics and Technology Management, which provided him with a strong foundation in economic modeling, productivity measurement, and technology-driven growth strategies. His academic training has enabled him to contribute effectively to research and policymaking, bridging theoretical economics with practical applications for sustainable development and knowledge-based economies.

Experience:

Prof. Ahmed has extensive academic and professional experience, with a career spanning multiple international collaborations involving universities and research institutions in the United States, Australia, and ASEAN regions. His expertise has guided projects in ICT-driven growth, green productivity, and economic innovation. Alongside his research, he has mentored postgraduate students, served on academic committees, and engaged with professional bodies, including IEEE and regional development forums, strengthening his contributions to scholarly and societal advancements.

Research Interest:

His research interests focus on sustainable economic growth, green productivity modeling, ICT spillover effects, knowledge economy development, and environmental policy. His work addresses global challenges by integrating economic development with environmental sustainability, offering frameworks for emerging economies to balance growth with ecological considerations.

Award:

Prof. Ahmed has earned recognition across academic platforms for his impactful publications, extensive citation record, and collaborations. His contributions have secured invitations to publish in high-impact journals, serve on editorial boards, and collaborate with regional and global research initiatives, affirming his standing as a leading voice in development economics and technology management.

Publications:

📘 Are the FDI inflow spillover effects on Malaysia’s economic growth input driven? – Economic Modelling, 2012 – cited by 204 articles
📗 The impact of CO₂ on economic growth in ASEAN 8 – Procedia Social and Behavioral Sciences, 2012 – cited by 154 articles
📘 The impact of ICT on East Asian economic growth: panel estimation approach – Journal of the Knowledge Economy, 2013 – cited by 119 articles
📕 Green TFP intensity impact on sustainable East Asian productivity growth – Economic Analysis & Policy, 2012 – cited by 109 articles
📘 ICT and human capital spillover effects in achieving sustainable East Asian knowledge-based economies – Journal of the Knowledge Economy, 2017 – cited by 95 articles
📙 Digital technology adoption and globalization innovation implications on Asian Pacific green sustainable economic growth – Journal of Open Innovation: Technology, Market, and Complexity, 2024 – cited by 74 articles
📗 Modelling ICT cybersecurity externalities spillover effects on sustainable economic growth – Journal of the Knowledge Economy, 2021 – cited by 74 articles

Conclusion:

Prof. Dr. Elsadig Musa Ahmed’s career reflects a remarkable contribution to advancing research in sustainable economic development, productivity growth, and technology-driven innovation. His prolific publication record, global collaborations, and mentorship of emerging scholars demonstrate his dedication to both academic excellence and societal progress. As a thought leader influencing policy and research globally, he stands as a deserving recipient of the Best Researcher Award 2025 for his enduring impact on economics, sustainability, and innovation.

 

Laura Lozano de Sosa | Agriculture | Best Researcher Award

Published on by Sciencefather

Dr. Laura Lozano de Sosa | Agriculture | Best Researcher Award

Dr. Laura Lozano de Sosa | Agriculture – Investigador Postdoctoral at Consejo Superior de Investigaciones Científicas(CSIC), Spain

Dr. Laura Lozano de Sosa Miralles is a postdoctoral researcher specializing in soil and environmental sciences, with a focus on sustainable agriculture, soil microbiology, and the dynamics of soil organic matter. Her research bridges applied and theoretical aspects of soil health management, aiming to develop innovative strategies through circular economy approaches, biochar applications, and precision agriculture. With over a decade of scientific contributions across Spain, the UK, and international collaborations, she has become a recognized contributor to advancing soil ecosystem resilience. Her dedication to promoting sustainable practices and improving global food and environmental security highlights her growing influence in agricultural and ecological research.

Academic Profile:

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Education

Dr. Lozano de Sosa earned her Ph.D. in Soil and Environmental Sciences from Bangor University, United Kingdom, in 2018. Her doctoral research explored carbon cycling and microbial ecology along riparian ecosystems, providing a foundation for understanding soil-climate interactions. She also holds a graduate degree in Forestry Engineering from the University of Huelva, Spain. Her academic journey reflects a strong interdisciplinary foundation, combining forestry, environmental science, and soil ecology to address pressing global challenges in ecosystem restoration and sustainable land use.

Experience

Her professional career spans prestigious institutions, including the Spanish National Research Council (CSIC) at IRNAS-Seville, where she currently serves as a postdoctoral researcher funded by the HORIZON-MISS-2022-SOIL Project. Her prior roles include postdoctoral fellowships at the Institute of Agricultural Sciences (Madrid) and multiple tenures at IRNAS-CSIC under competitive PAIDI and European research programs. She has collaborated internationally with institutions like the UK’s Centre for Ecology and Hydrology and contributed to European-funded projects, integrating soil science with sustainable farming practices. Her experience also extends to academic teaching, mentorship, and participation in policy-driven environmental research initiatives.

Research Interests

Dr. Lozano de Sosa’s research focuses on sustainable soil management, soil organic carbon cycling, and the integration of organic amendments for ecosystem restoration. She investigates biochar and compost applications, soil microbiome dynamics, and precision agriculture to enhance nutrient efficiency and soil fertility. Her work contributes to the United Nations’ Sustainable Development Goals by addressing soil degradation, biodiversity conservation, and agricultural sustainability. With multiple studies published in Q1-ranked journals, her research aligns with advancing solutions for climate change mitigation and sustainable food production systems globally.

Awards and Recognition

Her selection for competitive European research fellowships, participation in Horizon Europe initiatives, and continuous contributions to high-impact scientific publications underscore her recognition as a leading researcher in soil and agricultural sciences. Her involvement in international collaborations and projects addressing climate resilience and sustainable farming practices reflects her qualifications for the Best Researcher Award.

Selected Publications

  • 🌱 Land Degradation & Development (2024) – On soil carbon loss in tropical dry forests; cited in ecosystem restoration studies.
  • 💧 Agricultural Water Management (2023) – Compost-soil interactions in olive groves; referenced in sustainable irrigation research.
  • 🌍 SOIL Journal (2023) – Comparative analysis of compost strategies in Mediterranean olive systems; cited in agroecology studies.
  • ♻️ Applied Soil Ecology (2022) – Nitrogen dynamics influenced by compost application; informing Mediterranean soil fertility research.
  • 🌾 Agriculture, Ecosystems & Environment (2020) – Conservation tillage impacts on microbial communities; referenced in soil biodiversity studies.
  • 🌿 Science of the Total Environment (2018) – Riparian soils’ contribution to ecosystem services; cited in watershed management research.
  • 🔬 Soil Biology and Biochemistry (2018) – Spatial microbial functions across riparian areas; widely referenced in nutrient cycling studies.

Conclusion

Dr. Laura Lozano de Sosa Miralles exemplifies the qualities of a leading soil and environmental sciences researcher, with significant contributions to sustainable agriculture and ecosystem resilience. Her scholarly achievements, including publications in top-tier journals, active participation in European and global research projects, and her innovative approaches to soil management, position her as a strong candidate for the Best Researcher Award. Her ongoing work under Horizon Europe demonstrates her potential to drive impactful advances in sustainable land management and climate-adaptive agriculture, ensuring her continued influence on scientific innovation and societal progress.