Abdelhamid Errachid | Analytical Chemistry | Research Excellence Award

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Prof. Dr. Abdelhamid Errachid | Analytical Chemistry | Research Excellence Award

Distinguished Professor |Institute of Analytical Sciences | France

Dr. Abdelhamid Errachid is a distinguished researcher recognized for his impactful contributions to analytical chemistry, biosensor engineering, and advanced electrochemical diagnostics. With 354 published documents, over 7,934 citations, and an h-index of 46, his work reflects exceptional scientific productivity, global research influence, and sustained excellence. His expertise spans molecular imprinting, microfabrication, nanomaterial-based biosensing, aptasensors, wearable diagnostics, and point-of-care analytical systems, with applications addressing medical diagnostics, environmental monitoring, and emerging public health needs. His research focuses heavily on the development of label-free electrochemical biosensors, flexible sensing platforms, nanoparticle-assisted detection systems, and microcontact-printed analytical devices, enabling highly sensitive detection of clinically relevant biomarkers, antibiotics, oncogenes, inflammatory markers, and illicit substances. His scholarly portfolio demonstrates strong interdisciplinary collaboration, with more than 600 co-authors, reflecting an extensive global network and sustained engagement in high-impact scientific partnerships. His work is widely disseminated in leading journals and open-access research platforms, supporting innovations that advance healthcare technology, real-time disease monitoring, and next-generation analytical tools. Through his commitment to scientific innovation, translational research, and emerging sensing technologies, Dr. Errachid continues to drive progress in precision diagnostics and modern analytical science, contributing significantly to global scientific and societal advancement.

Profiles : Scopus | ORCID

Featured Publications 

Ben Halima, H., Zine, N., Nemeir, I. A., Pfeiffer, N., Heuberger, A., Bausells, J., Elaissari, A., Jaffrezic-Renault, N., & Errachid, A. (2024). An immunoFET coupled with an immunomagnetic preconcentration technique for the sensitive EIS detection of HF biomarkers. Micromachines, 15(3).

Elouerghi, A., Bellarbi, L., Errachid, A., & Yaakoubi, N. (2024). An IoMT-based wearable thermography system for early breast cancer detection. IEEE Transactions on Instrumentation and Measurement.

Techakasikornpanich, M., Jangpatarapongsa, K., Polpanich, D., Zine, N., Errachid, A., & Elaissari, A. (2024). Biosensor technologies: DNA-based approaches for foodborne pathogen detection. TrAC – Trends in Analytical Chemistry.

Achmamad, A., M’Hammedi, T., Yaakoubi, N., Errachid, A., Fezazi, M. E., Jbari, A., & Bellarbi, L. (2024). Degree of stenosis quantification from phonoangiography signal analysis for diagnosing carotid artery disease. IEEE Sensors Journal.

Suwannin, P., Jangpatarapongsa, K., Frías, I. A. M., Polpanich, D., Techakasikornpanich, M., Elaissari, A., & Errachid, A. (2024). Development of ultrasensitive genosensor targeting pathogenic Leptospira DNA detection in urine sample. SSRN Electronic Journal.

Hemangini Pravinbhai | Analytical Chemistry | Best Researcher Award

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Hemangini Pravinbhai | Analytical Chemistry | Best Researcher Award

Assistant Professor | Anand Pharmacy College | India

Ms. Hemangini Pravin Bhai is an emerging researcher in analytical and green pharmaceutical chemistry, steadily building a meaningful scientific presence with four publications, 4 citations, and an h-index of 1. Her work demonstrates a strong commitment to sustainability-driven analytical method development, optimization-based validation, and the integration of environmental metrics into pharmaceutical analysis. She skillfully applies advanced tools such as Box–Behnken experimental design, Analytical Quality by Design (AQbD), densitometric evaluation, and protein precipitation optimization to create robust, sensitive, reproducible, and eco-friendly analytical workflows. Her research portfolio highlights validated analytical methods for antihypertensive and antidiabetic drug combinations, reflecting versatility in handling complex formulations and biologically relevant matrices while ensuring regulatory-aligned precision and method selectivity. By incorporating greenness and whiteness assessment tools, she aligns her work with global trends promoting environmentally conscious analytical science. Looking ahead, her scientific impact can be further enhanced through interdisciplinary collaborations, involvement in international research networks, and the adoption of advanced platforms such as LC–HRMS, automation, microfluidic-based analysis, and AI-assisted chemometrics. With a strong technical foundation, growing recognition, and a clear vision for sustainable innovation, Ms. Hemangini Pravin Bhai demonstrates excellent potential to become a leading contributor to next-generation green pharmaceutical analytical science.

Profile : Google Scholar

Featured Publications

Patel, K., Macwan, P., Prajapati, A., Patel, H., & Parmar, R. (2023). Box‒Behnken design-assisted development of an eco-friendly thin-layer chromatography‒densitometry method for the quantification of amlodipine besylate, metoprolol succinate. JPC–Journal of Planar Chromatography–Modern TLC, 36(4), 265–277. Cited by 3

H. P. Patel, K. G. Pandtrg, D. P. Patel, J. R. Christian, & P. A. Shah. (2021). Box-Behnken design assisted protein precipitation optimization for simultaneous determination of metformin hydrochloride and alogliptin benzoate in plasma. Indian Journal of Pharmaceutical Sciences, 83(4), 785–793. Cited by 1

Patel, D., Patel, H., Thakkar, V., & Patel, K. (2025). Validated UPLC-MS/MS bioanalytical method for determination of palbociclib along with comparison of methods by greenness and whiteness evaluation. Microchemical Journal, 114587.

Hemangini Patel, T. S. B., Kalpana Patel, & Rajnikant Mardia. (2025). Analytical quality by design-based optimization of ecofriendly thin‑layer chromatography‒densitometry method for quantification of antihypertensive combination using complex. JPC – Journal of Planar Chromatography – Modern TLC, 38, 69–81.

Hemangini Patel, B. S., Prasha Patel, Kalpana Patel, Rajnikant Maradia, & Tejal Soni. (2025). Green metrics evaluation of analytical methodologies for amlodipine besylate, telmisartan and indapamide: A critical and comprehensive review. Journal of Chemical Health Risks, 15, 751–790.

Balaji Panchal | Biochemistry | Editorial Board Member

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Dr. Balaji Panchal | Biochemistry | Editorial Board Member

Research associate professor | Hebei University of Engineering | China

Dr. Balaji M. Panchal is a distinguished and steadily rising researcher with a strong multidisciplinary background in sustainable energy systems, environmental geochemistry, and pollution mitigation technologies. With a growing scholarly presence reflected through more than 54 peer-reviewed publications, over 809 citations, and an h-index of 17, his research demonstrates increasing academic influence and global relevance. His work encompasses a broad scientific spectrum, including biodiesel production, municipal sludge valorization, coal geochemistry, mercury isotope tracing, and sustainable waste-to-energy conversion. Through open-access publications and technical studies, Dr. Panchal has contributed valuable insights into electrolysis-based biodiesel synthesis, environmental pollutants associated with coal and geological formations, and the geochemical characterization of organic matter under varied tectonic and thermal conditions. His comprehensive review studies highlight the potential of circular resource utilization and cleaner industrial processing, aligning closely with international sustainability agendas focused on renewable energy, carbon reduction, and environmental protection. His research collaborations include more than 100 co-authors, illustrating strong scientific networking and interdisciplinary engagement. Dr. Panchal’s contributions extend beyond laboratory findings, influencing areas such as clean fuel policy development, environmental monitoring, and industrial applications of sustainable chemistry. His academic trajectory reflects a commitment to addressing real-world environmental and energy challenges through evidence-based solutions, advanced analytical methods, and forward-looking scientific inquiry. His ongoing research continues to expand across emerging topics, including biofuel optimization, harmful trace element control, and geological carbon systems, ensuring relevance to future energy transitions and environmental stewardship. Overall, Dr. Panchal’s contributions position him as a noteworthy researcher dedicated to advancing sustainable fuel innovation, environmental remediation strategies, and applied geochemical science for long-term societal and environmental benefit.

Profiles : Scopus

Featured Publications

Panchal, B. M. (2025). Tectonic-driven thermal alteration of organic matter in the Permian high-rank coals in the southern North China Basin. Fuel.

Panchal, B. M. (2025). Geochemistry characteristics and coal-forming environments of Carboniferous–Permian coal: An example from the Zhaokai Mine, Ningwu Coalfield, Northern China. Sustainability (Switzerland).

Hamid Rehman | Environmental Chemistry | Research Excellence Award

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Dr. Hamid Rehman | Environmental Chemistry | Research Excellence Award

Postdoctoral Research Fellow | Yildiz Technical University | Turkey

Dr. Hamid Rehman is an emerging interdisciplinary researcher whose work focuses on environmental biotechnology, waste valorization, and the sustainable recovery of rare earth elements, with growing recognition for his contributions to circular economy solutions and eco-efficient material extraction strategies. His research demonstrates a strong integration of experimental bioleaching, microbial process engineering, predictive analytics, and meta-analysis, reflecting a modern scientific approach that bridges laboratory methods with scalable industrial applications. With 8 indexed publications, 44 citations, and an h-index of 4, his scholarly record shows a steadily increasing impact within the scientific community. His engagement in large, multi-author and cross-disciplinary projects, including collaborations with more than 50 co-authors, illustrates his commitment to global scientific cooperation and knowledge exchange. One of his most prominent works applies an integrated framework to the bioleaching of waste-derived rare earth elements, combining experimental data with computational forecasting to support process scale-up, positioning his research within urgent global discussions on c ritical material supply, clean energy technologies, and sustainable resource management. Beyond technical advancement, his scientific vision aligns with broader societal goals, emphasizing responsible waste utilization, reduction of environmental pollution, and replacement of resource-intensive mining processes with biologically driven alternatives. His contributions are not only relevant to academic research but also show strong potential for industrial translation, particularly in sectors developing green manufacturing, cleaner extraction pathways, and next-generation materials. As his publication profile and citation influence continue to expand, Dr. Rehman remains committed to advancing innovative research, strengthening international collaborations, and contributing to scientific progress that supports environmental stewardship, technological resilience, and global sustainability.

Profiles : Google Scholar | Scopus | ORCID | ResearchGate | LinkedIn

Featured Publications

Rehman, H., Debik, E., Ulucan-Altuntas, K., Manav-Demir, N., Canci, B., Iqbal, M., Barros, R., ur Rehman, W., Mohanty, S. K., & Khan, A. H. A. (2025). Bioleaching of waste-derived rare earth elements: An integrated approach with meta-analysis and predictive analytics for scale-up. Results in Engineering.

Wasif ur Rehman, W., Ma, Y., Khan, Z., Ait Laaskri, F. Z., Xu, J., Farooq, U., Ghani, A., Rehman, H., & Xu, Y. (2025). Biomass-derived carbon materials for batteries: Navigating challenges, structural diversities, and future perspective. Next Materials.

Wasif ur Rehman, W., Ma, Y., Khan, Z., Ait Laaskri, F. Z., Xu, J., Xu, Y., Rehman, H., Farooq, U., Altalbe, A., & Li, J. (2025). Bioinspired materials for batteries: Structural design, challenges and future perspective. Results in Chemistry.

Rehman, H., Rehman, Z., Das, T. K., Rehman, M., Khan, B. A., Nandi, S., Ahmad, K., Mohanty, S. K., Wasif ur Rehman, W., Naeem, R., et al. (2024). Toxicity evaluation and degradation of cypermethrin-contaminated soil using biochar and Bacillus cereus amendments. Scientific Reports.

Rehman, H., Khan, A. H. A., Butt, T. A., Toqeer, M., Bilal, M., Ahmad, M., Al-Naghi, A. A. A., Latifee, E. R., Algassem, O. A. S., & Iqbal, M. (2024). Synergistic biochar and Serratia marcescens tackle toxic metal contamination: A multifaceted machine learning approach. Journal of Environmental Management.

Dr. Hamid Rehman is advancing the field of environmental biotechnology through innovative bioleaching and data-driven sustainable recovery methods. His research promotes cleaner scientific practices and supports the global transition toward circular resource utilization.

Alexandr Ozerin | Nanotechnology | Best Researcher Award

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Assist. Prof. Dr. Alexandr Ozerin | Nanotechnology | Best Researcher Award

 Volgograd State Technical University | Russia

A. S. Ozerin is an emerging researcher with growing contributions in the fields of nanomaterials, polymer science, and materials chemistry, with a research profile that includes 15 peer-reviewed publications, an h-index of 4, and 27 citations, demonstrating both steady scholarly productivity and increasing academic influence. The work explores nanoscale material synthesis, polymer-assisted nanoparticle stabilization, and advanced hybrid material systems, with recent research addressing the pseudomatrix synthesis behavior of nanoscale silver iodide particles in the presence of chitosan, reflecting a strong focus on sustainable material design, controlled crystallization, and functional nanostructures. This research direction aligns closely with current global priorities in the development of environmentally responsible materials, bio-derived polymer supports, and application-driven nanocomposites with potential relevance in antimicrobial applications, chemical sensing, and next-generation functional surfaces. A notable characteristic of Ozerin’s academic trajectory is active collaboration, evidenced by co-authorship with 30 researchers working across diverse scientific disciplines, enabling methodological depth, advanced characterization strategies, and interdisciplinary knowledge exchange, which collectively contribute to the rigor and impact of the published work. The publication record shows a progression from foundational studies toward more complex applied research frameworks, signaling a developing research identity focused on innovation in material synthesis pathways and structure–property optimization. While still at an early stage, the citation pattern and continued publication activity indicate upward momentum and growing recognition within the scientific community. The research conducted not only contributes to fundamental understanding of polymer nanoparticle interactions but also supports the advancement of applied materials science where functionality, sustainability, and nanoscale precision are key factors. With continued engagement in interdisciplinary research, refinement of experimental approaches, and increasing publication visibility, Ozerin’s work holds potential to further expand its academic reach and support broader technological and societal applications in the evolving field of advanced material systems.

Profiles : Scopus | ORCID

Featured Publications

Donetskova, L. Yu., Ozerin, A. S., Mikhailyuk, A. E., Radchenko, F. S., Andreev, D. S., Titova, E. S., Babkin, V. A., & Novakov, I. A. (2023). Hydrolysis of polyacrylamide in the presence of nano-sized copper particles. Russian Journal of General Chemistry.

Krotikova, O. A., Ozerin, A. S., Radchenko, Ph. S., Abramchuk, S. S., & Novakov, I. A. (2017). Aqueous phase synthesis of silver iodide nanoparticles from a polyacrylic acid–silver complex. Colloid and Polymer Science, 295(1), 99–105.

Ustyakina, D. R., Chevtaev, A. S., Tabunshchikov, A. I., Ozerin, A. S., Radchenko, F. S., & Novakov, I. A. (2019). Complexes of polyethyleneimine with Cu²⁺ ions in aqueous solutions as precursors for obtaining copper nanoparticles. Polymer Science – Series B, 61(3), 261–265.

Krotikova, O. A., Ozerin, A. S., & Radchenko, F. S. (2017). Polyethylenimine complexes with silver ions in aqueous solutions as precursors for synthesis of monodisperse silver iodide particles. Polymer Science, Series A, 59, 288–294.

Vinogradov, V. S., Ozerin, A. S., Radchenko, Ph. S., & Novakov, I. A. (2025). Pseudomatrix synthesis characteristics of nanoscale silver iodide particles in the presence of chitosan. Iranian Polymer Journal.

A. S. Ozerin’s research advances the understanding and controlled synthesis of nanoscale materials, enabling progress in polymer–nanoparticle systems and functional material design. This work supports future innovations in sensing, catalysis, and antimicrobial applications with potential societal and industrial impact.

M.R.Rajan | Nanotechnology | Best Researcher Award

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Prof. Dr. M.R. Rajan | Nanotechnology | Best Researcher Award

Senior Professor | The Gandhigram Rural Institute- Deemed to be University | India

Dr. M. R. Rajan is a senior biologist whose four decades of academic service have significantly advanced environmental biotechnology, aquatic toxicology, nanomaterial-based interventions, and microbial ecology. As Senior Professor in the Department of Biology at the Gandhigram Rural Institute (Deemed to be University), Tamil Nadu, he has established a robust research portfolio addressing pollutant dynamics, eco-toxicological risks, sustainable aquaculture practices, and innovative bioremediation technologies. His early investigations on tannery effluents, sewage-supported fish culture, and organic–inorganic soil amendments contributed practical solutions for rural environmental management, while his recent work focuses on nanoparticle–organism interactions, green synthesis of metal and carbon-based nanomaterials, and the functional role of intestinal microbiota in enhancing fish growth and health. Dr. Rajan has authored numerous book chapters published by CRC Press, BP International, Agrobios, Science Publications, and other reputed outlets, highlighting themes such as wastewater purification, phytoremediation, antibacterial nanomaterials, and conservation biology. His extensive journal contributions many indexed in Scopus span topics including carbon quantum dots, silver and copper oxide nanoparticles, probiotic bacterial isolation, biomedical potential of graphene-based nanostructures, and sustainable valorisation of biological waste. His studies integrate biochemical, haematological, enzymatic, and ecotoxicological assessments, providing scientifically grounded insights for improving aquaculture safety, environmental restoration, and resource circularity. Through interdisciplinary collaborations and mentorship, he has strengthened research capacity in biological sciences and contributed to solutions addressing pollution, environmental health, and rural sustainability. His work continues to bridge laboratory innovation with societal needs, reinforcing his standing as a respected scholar and contributor to globally relevant biological research. His academic influence is reflected in 225 citations, 44 documents, and an h-index of 9, underscoring his meaningful contributions to contemporary biological science.

Profiles: Scopus | ORCID | LinkedIn

1. Muthuswami Ruby Rajan, & Chinnadurai Kaleeswaran. (2024). Evaluation of disparate multiplicities of copper oxide nanoparticles integrated feed on the growth and hematology of koi carp. Journal of Toxicological Studies.

2. Muthuswami Ruby Rajan, Rekha, M., & Dayana Senthamarai, M. (2024). Incorporation of Nano Selenium in fish diet and assessment of growth performance and biochemical criteria of Labeo rohita. Journal of Environmental Nanotechnology.

3. Muthuswami Ruby Rajan, & Dayana Senthamarai, M. (2023). Comparative study of green and chemical-synthesized selenium nanoparticles and its antibacterial assay against fish pathogens. Journal of Nanoscience and Technology.

4. Muthuswami Ruby Rajan, & Baluchamy Meenakumari. (2023). Impact of differential quantities of magnesium oxide nanoparticles on growth, haematological and biochemical characteristics of common carp Cyprinus carpio. International Journal of Creative Research Thoughts.

5. Rajan, M. R., & Brindha, G. (2022). Evaluation of dissimilar intestinal bacteria incorporated feeds on growth of ornamental fish Swordtail (Xiphophorus helleri). Letters in Applied Microbiology, 75(1).

Soo Jean Park | Chemical Biology | Best Researcher Award

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Dr. Soo Jean Park | Chemical Biology | Best Researcher Award

Senior Lecturer | Macquarie University | Australia

Dr Soo Jean Park is a leading researcher in organic chemistry and chemical ecology, specialising in arthropod semiochemistry, pheromone biology, and sustainable pest management. Her research advances the molecular and ecological understanding of pest–plant–natural enemy interactions, with particular focus on the chemical signals governing behaviour in economically significant insect species such as Queensland fruit fly, fall armyworm, and other Tephritidae pests. She integrates advanced analytical chemistry, organic synthesis, electrophysiology, and behavioural assays to uncover volatile profiles, identify bioactive natural products, and develop environmentally responsible pest control solutions. Her work has contributed significant insights into species-specific pheromone blends, age- and diet-dependent chemical emission patterns, rectal gland and cuticular chemistry, natural product attractants and repellents, and the chemical basis of reproductive isolation in sibling pest species. Dr Park has also driven innovation in softer insecticide design, natural product–based antifungal agents, and novel semiochemical applications aimed at reducing reliance on synthetic pesticides. Her research outputs, spanning 34 peer-reviewed publications in high-impact journals such as Scientific Reports, Molecules, Journal of Chemical Ecology, Journal of Pest Science, and PLoS ONE, reflect rigorous methodology, strong interdisciplinary collaboration, and substantial translational value for agriculture and biosecurity. She works closely with entomologists, ecologists, organic chemists, and industry partners to bridge fundamental chemical insights with applied pest management strategies, contributing to improved crop protection and ecological sustainability. Her findings support the development of precision monitoring tools, behaviour-modifying lures, and innovative integrated pest management frameworks with global relevance. Dr Park’s research influence is further evident through 347 citations, 34 documents, and an h-index of 10, demonstrating her growing impact in chemical ecology and sustainable insect management.

Profiles: Google Scholar | Scopus | ORCID

1. Park, S. J., Price, J. R., & Todd, M. H. (2012). Oxidative arylation of isochroman. The Journal of Organic Chemistry, 77(2), 949–955. Cited by: 118

2. Kempraj, V., Park, S. J., & Taylor, P. W. (2020). Forewarned is forearmed: Queensland fruit flies detect olfactory cues from predators and respond with predator-specific behaviour. Scientific Reports, 10(1), 7297. Cited by: 36

3. Pérez, J., Park, S. J., & Taylor, P. W. (2018). Domestication modifies the volatile emissions produced by male Queensland fruit flies during sexual advertisement. Scientific Reports, 8(1), 16503. Cited by: 34

4. Noushini, S., Perez, J., Park, S. J., Holgate, D., Mendez Alvarez, V., Jamie, I., … Jamie, J. (2020). Attraction and electrophysiological response to identified rectal gland volatiles in Bactrocera frauenfeldi (Schiner). Molecules, 25(6), 1275. Cited by: 27

5. Noushini, S., Perez, J., Park, S. J., Holgate, D., Jamie, I., Jamie, J., & Taylor, P. (2019). Rectal gland chemistry, volatile emissions, and antennal responses of male and female banana fruit fly, Bactrocera musae. Insects, 11(1), 32. Cited by: 25

Fritz Pragst | Medicinal Chemistry | Best Paper Award

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Prof. Dr. Fritz Pragst | Medicinal Chemistry | Best Paper Award

Guest Scientist | Humboldt University of Berlin | Germany

Prof. Dr. Fritz Pragst is a distinguished scholar in forensic and analytical toxicology whose work has significantly shaped modern toxicological science, evidence interpretation, and laboratory methodology. With an academic career spanning several decades, he has established himself as a leading authority in systematic toxicological analysis, forensic chemistry, and biomarker research, contributing to both foundational understanding and applied forensic practice. His scientific influence is demonstrated through 147 published documents, more than 6,170 citations, and an h-index of 43, reflecting consistent scholarly impact, high research relevance, and continued citation in contemporary toxicology literature. His pioneering contributions to hair analysis methodology, including alcohol biomarkers such as ethyl glucuronide and drug exposure evaluation in cases involving familial substance misuse, have provided globally referenced frameworks for long-term toxicological monitoring, legal case assessments, and public health applications. His work addresses complex analytical challenges, including differentiation between substance exposure routes, interpretation of low-level toxicological data, validation of forensic laboratory workflows, and development of ethical and scientifically defensible interpretation models. Beyond research, he has actively contributed to scientific societies, served in editorial and advisory roles, and engaged in extensive collaboration across multidisciplinary research networks, thereby supporting international knowledge exchange and capacity building within toxicology and forensic science communities. His scholarly output also demonstrates a commitment to solving real-world challenges, including improving diagnostic accuracy, enhancing substance abuse monitoring, and supporting fair use of toxicological evidence in legal and clinical environments. Through his influential publications, leadership roles, and contributions to methodological rigor and scientific education, Prof. Dr. Fritz Pragst has made a lasting impact on global forensic toxicology, ensuring that analytical science continues to advance with accuracy, ethical integrity, and societal relevance.

Profiles : Scopus | ResearchGate

Pragst, F. (2025). Systematic toxicological analysis in forensic and clinical laboratories: a challenging task of analytical chemistry. ChemTexts, 11(2).

Pragst, F., & Balíková, M. A. (2006). State of the art in hair analysis for detection of drug and alcohol abuse. Clinica Chimica Acta, 370(1–2), 17–49.

Pragst, F. (2022). Is there a relationship between abuse of alcohol and illicit drugs seen in hair results? Drug Testing and Analysis. (2025 listing for 2025 issues)

Prof. Dr. Fritz Pragst has significantly advanced forensic and clinical toxicology through pioneering work in systematic toxicological analysis and hair‐based drug detection methods, shaping global standards and improving public health, justice systems, and medico-legal investigations. His research continues to inspire innovation, strengthen scientific reliability, and support safer societies worldwide.

Chang Soon Huh | Physical Chemistry | South Korea

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Assist. Prof. Dr. Chang Soon Huh | Physical Chemistry | South Korea

Assistant Professor | Dong-Eui University | South Korea

Dr. Chang-soon Huh is an emerging researcher recognized for his growing contributions to analytical chemistry, biosensing technologies, and nanomaterial-assisted detection systems. With 13 peer-reviewed publications, 50 citations, and an h-index of 3, he demonstrates a steadily rising academic influence supported by methodologically robust and application-driven studies. His work integrates fluorescence spectroscopy, biomolecular recognition, and engineered nanomaterials to create rapid, sensitive, and cost-efficient diagnostic platforms capable of addressing contemporary analytical challenges. One of his notable achievements includes the development of a fluorescent detection strategy for alkaline phosphatase based on gold nanoclusters and p-nitrophenyl phosphate, underscoring his ability to connect fundamental chemical principles with practical biosensing innovation. His research portfolio highlights strong interdisciplinary collaboration, engaging co-authors across materials science, biotechnology, and chemical engineering, which enriches the scientific depth and applicability of his studies. These collaborations support novel advancements in high-sensitivity detection systems, enabling precise monitoring of biochemical reactions and contributing to improved diagnostic and environmental assessment methodologies. Beyond quantitative publication metrics, his work demonstrates broader societal relevance, particularly in areas requiring early disease detection, quality assurance in bioprocessing, and real-time analysis of biochemical pathways. His commitment to scientific rigor, innovation, and problem-solving positions him as a promising researcher with expanding influence in the global analytical science community. Through consistent scholarly output and an expanding citation record, Dr. Huh continues to advance impactful research that aligns with emerging needs in biosensing, nanotechnology, and chemical diagnostics.

Profiles : Scopus | ResearchGate

Featured Publications

Kim, S.-H., Huh, C.-S., & Kim, M.-M. (2025). Rapid and sensitive detection of alkaline phosphatase based on fluorescent gold nanoclusters and p-nitrophenyl phosphate. Journal of Bioscience and Bioengineering. Citations: 1

Lee, S. E., & Huh, C.-S. (2025). Application of smartphones to measurements of reducing power related to antioxidant activity. Journal of Analytical Chemistry.

Kim, G. H., Huh, C.-S., & Kim, M.-M. (2024). Development of a smartphone-based method for measuring the antioxidant efficacy of commercial beverages. Current Analytical Chemistry.

Talapphet, N., & Huh, C.-S. (2024). A smartphone colorimetric development with TMB/H₂O₂/HRP reaction system for hydrogen peroxide detection and its applications. Journal of Analytical Chemistry. Citations: 10

Talapphet, N., & Huh, C.-S. (2024). Development of gold nanocluster complex for the detection of tumor necrosis factor-alpha based on immunoassay. Journal of Immunological Methods. Citations: 4

Chang-soon Huh’s work advances analytical science through innovative biosensing and nanomaterial-based detection systems that improve accuracy, speed, and accessibility in chemical and biochemical analysis. His research supports global innovation in health diagnostics and contributes to practical technologies that strengthen scientific, industrial, and societal advancements.

Arul Pundi | Materials Chemistry | Chemical Scientist Award

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Dr. Arul Pundi | Materials Chemistry | Chemical Scientist Award

Postdoctoral Research Fellow | Feng Chia University | Taiwan

Dr. Pundi Arul is an emerging early-career researcher at Feng Chia University, Taichung, Taiwan, contributing to advancing photocatalysis, polymer composites, and defect-engineered semiconductor materials. He has authored 14 peer-reviewed publications that have collectively received 328 citations, demonstrating the growing visibility and scientific influence of his work within the global materials science community, and his h-index of 10 underscores the impact of his research relative to his career stage. His primary research focus lies in the design, synthesis, and optimization of vacancy-engineered polymeric and graphitized carbon nitride photocatalysts, materials that hold significant promise for solar energy conversion, environmental remediation, and sustainable oxidation–reduction reactions. His recent comprehensive review on vacancy defects provides valuable mechanistic insights and offers strategic guidance for future photocatalyst development. Beyond defect engineering, Dr. Arul’s research interests encompass polymer science, nanomaterials, photocatalytic reaction pathways, and semiconductor modifications aimed at improving light absorption and charge-carrier dynamics. He frequently employs advanced characterization tools to probe structure–property relationships, contributing to more rational and efficient catalyst design. Collaboration is a key dimension of his scientific work, reflected in his co-authorship with 25 researchers across interdisciplinary and international projects, strengthening the depth and application potential of his studies in sustainable materials and green energy technologies. With research aligned toward global priorities in clean energy and environmental protection, Dr. Arul’s contributions support the development of next-generation photocatalytic systems capable of pollution mitigation and renewable energy harvesting. Through his expanding research trajectory, he continues to establish himself as a promising scientist in materials chemistry and photocatalytic science.

Profiles : Google Scholar | Scopus | ORCID

Featured Publications

Pundi, A., Chang, C. J., Chen, J., Hsieh, S. R., & Lee, M. C. (2021).A chiral carbazole based sensor for sequential “on-off-on” fluorescence detection of Fe³⁺ and tryptophan/histidine.
Sensors and Actuators B: Chemical, 328, 129084.Cited by: 95

Pundi, A., & Chang, C. J. (2022).Recent advances in synthesis, modification, characterization, and applications of carbon dots.Polymers, 14(11), 2153.Cited by: 67

Pundi, A., Chang, C. J., Chen, Y. S., Chen, J. K., Yeh, J. M., Zhuang, C. S., & Lee, M. C. (2021).An aniline trimer-based multifunctional sensor for colorimetric Fe³⁺, Cu²⁺ and Ag⁺ detection, and its complex for fluorescent sensing of L-tryptophan.Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 247, 119075.Cited by: 34

Reddy, P. M., Hsieh, S. R., Lee, M. C., Chang, C. J., Pundi, A., Chen, Y. S., Lu, C. H., & others. (2019).Aniline trimer based chemical sensor for dual responsive detection of hazardous CN¯ ions and pH changes.Dyes and Pigments, 164, 327–334. Cited by: 27

Pundi, A., & Chang, C. J. (2023).Recent developments in the preparation, characterization, and applications of chemosensors for environmental pollutants detection.Journal of Environmental Chemical Engineering, 11(5), 110346.Cited by: 25

Dr. Pundi Arul’s research advances next-generation sensing and photocatalytic materials, enabling cleaner environments, sustainable technologies, and high-precision analytical tools. His innovations contribute directly to global efforts in environmental protection, renewable energy, and advanced material design.