Jorge Guerrero Valle | Anthropology | Young Scientist Award

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Mr. Jorge Guerrero Valle | Anthropology | Young Scientist Award

University of Cádiz | Spain

Mr. Jorge Luis Guerrero Valle is a predoctoral researcher at the University of Cádiz, attached to the Faculty of Social Sciences and Communication, where he develops his work within the field of social history, labor studies, and contemporary transformations of work. He graduated in History from the Faculty of Philosophy and Letters at the University of Cádiz and later earned a Master’s degree in Culture of Peace, Conflicts, Education, and Human Rights from the same institution, which shaped his interdisciplinary perspective on historical and social research. His doctoral research is linked to the analysis of labor processes, social mobilizations, and the spatial politics of labor in the logistics sector, with a particular focus on Amazon warehouses. He participates in the national research project The spatial politics of labour in the logistics industry (SPATIALPOLITICS), financed by the Ministry of Science and Innovation, in collaboration with the University of Seville. Guerrero Valle has contributed to academic production through books, chapters, and scientific articles, including his monograph Las otras protagonistas de la Transición. Izquierda Radical y movilizaciones sociales, where he examined the role of the LCR during the Spanish transition, as well as his publication in Geoforum on embodied narratives of Amazon workers. He has also written critical reviews, such as his contribution to Historia Actual Online. His participation in international and national conferences highlights his active engagement in academic debates, with presentations on topics ranging from radical political movements in Spain to digital Taylorism and gender inequalities in platform work. In addition, he has delivered seminars on methods of labor control in Amazon and the impact of artificial intelligence, algorithms, and automation on labor organization. Multidisciplinary in his approach, Jorge Luis Guerrero Valle combines historical inquiry with contemporary social analysis, contributing to the understanding of labor, conflict, and resistance in globalized contexts.

Profile: Google Scholar

Featured Publications

Valle, J. G. (2016). [Reseña de Historia de la Liga Comunista Revolucionaria (1970-1991), por M. Caussa & R. Martínez i Muntada (Eds.)]. Historia Actual Online, 194–196.

Valle, J. G. (2018). La LCR y las reformas centrales de la transición. En Las otras protagonistas de la transición: Izquierda radical y movilizaciones (pp. xx–xx).

 

Karanpal Singh | Energy | Young Scientist Award

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Dr. Karanpal Singh | Energy | Young Scientist Award

Indian Institute of Technology | India

Dr. Karanpal Singh is a dedicated researcher in the field of sustainable energy engineering, currently pursuing advanced research as a Post-Doctoral Fellow at the Indian Institute of Technology, Kanpur. His research journey began with a strong passion for nanomaterials and energy storage technologies, which has steadily evolved toward the design and development of solid-state electrolytes for lithium-ion and sodium-ion batteries. His work focuses on polymer composite electrolytes and interfacial engineering, with the aim of improving ionic conductivity, thermal stability, and electrochemical performance for next-generation energy storage systems. Over the course of his career, Dr. Singh has held significant academic and research positions, including Senior Project Scientist at IIT Kanpur and Adjunct Research Faculty at Chitkara University, where he contributed to impactful research on batteries and solar energy technologies. Earlier, he served as Assistant Professor at Quest Group of Colleges and Continental Group of Colleges under PTU, where he nurtured his expertise in electronics and communication engineering. He earned his Doctor of Philosophy in Electronics Engineering from Sri Guru Granth Sahib World University, where his research focused on nanoparticle synthesis, thin film fabrication, and doping of transition metals for photovoltaic applications. His integrated Master’s studies at the same institution laid the foundation for his work in green synthesis of zinc oxide nanoparticles and their photocatalytic applications. Dr. Singh has contributed extensively to the scientific community with multiple high-impact publications on MXenes, metal-organic frameworks, nanostructures, and photocatalysis, alongside filed patents in the field of solid-state electrolytes for sodium-ion batteries. His professional skills span advanced laboratory synthesis techniques, electrochemical impedance spectroscopy, and diverse characterization tools including FESEM, XRD, and UV-Vis spectroscopy. Multilingual in English, Punjabi, and Hindi, Dr. Singh continues to drive innovation at the intersection of materials science, energy storage, and environmental sustainability.

Profile: Google Scholar

Featured Publications

Ajmal, Z., Qadeer, A., Singh, K., Al Mahmud, A., Lakhan, M. N., Pradeep, H., … Shuhang, W. (2025). A comprehensive review on MXenes for various applications. Applied Energy, 397, 126136.

Wang, K., Hussain, I., Singh, K., … Zhang, K. (2025). Fabrication of MXene films through various techniques: A mini review. Nanoscale.

Kewate, O., Singh, K., … Hussain, I. (2025). MXene/transition metal sulfide composites in energy storage applications: A review. Materials Today Chemistry, 102816.

Ajmal, Z., Tu, X., Mendhe, A. C., Umer, S., Jangra, S., Pradeep, H., Singh, K., … Zhang, K. (2025). Recent trend in MOF-derived hollow nanostructures for energy conversion and storage applications: Prospects and environmental consequences. Coordination Chemistry Reviews, 541, 216789.

Hussain, I., Singh, K., Mendhe, A. C., Thalji, M. R., Mandal, S., Ali, I., … Zhang, K. (2025). Integration of non-Ti₃C₂ MXene with carbon-based materials for energy storage devices: Recent advancements and future aspects. Progress in Solid State Chemistry, 100523.

 

Divya Kumari | Ethnobotany | Young Scientist Award

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Ms. Divya Kumari | Ethnobotany | Young Scientist Award

Banasthali Vidyapith | India

Ms. Divya Kumari is a dedicated research scholar at Banasthali Vidyapith, Jaipur, with expertise spanning cancer biology, toxicology, pharmacology, and ethnobotany. A gold medalist in M.Sc. Animal Science, she has consistently demonstrated academic excellence and research proficiency, earning several awards and recognitions for her work. She possesses advanced knowledge in animal biotechnology, molecular biology, pharmacognosy, and toxicology, supported by more than three years of research experience on laboratory rodents and medicinal plants. Her technical expertise includes the use of modern analytical and molecular techniques such as PCR, ELISA, GC-MS, HPLC, FT-IR, and NMR, along with skills in bioinformatics and statistical software for data analysis. Divya has actively participated in national and international workshops, training programs, and faculty development initiatives, where she gained insights into nanotechnology, disease diagnostics, and biomaterials. She has presented her research findings through impactful oral and poster presentations at reputed conferences, earning recognition for her clarity, innovation, and scientific contribution. Her scholarly output includes publications in peer-reviewed journals indexed in Scopus and SCI, as well as book chapters with established publishers such as Wiley, Springer, and IGI Global, covering diverse areas including cancer therapeutics, food preservation, toxicology, and nanotechnology. In addition to her research, she has served as a teaching associate in biosciences and biotechnology, where she contributed to both theoretical and practical training of undergraduate students in nursing and biotechnology. Her commitment to academic growth is complemented by her involvement in extracurricular activities, including volunteering, cultural participation, and creative pursuits such as sketching, poetry, and yoga. With her strong academic background, research achievements, and teaching experience, Divya Kumari is emerging as a versatile and promising young scientist whose work is contributing to cancer research, drug discovery, and multidisciplinary innovations in biosciences.

Profile: Google Scholar

Featured Publications

  • Kumari, D., Singh, D., Meena, M., Janmeda, P., & Siddiqui, M. H. (2024). Qualitative, quantitative, in vitro antioxidant activity and chemical profiling of Leptadenia pyrotechnica (Forssk.) Decne using advanced analytical techniques. Antioxidants, 13(7), 794.

  • Kumari, D., Chaudhary, P., & Janmeda, P. (2024). Genetic engineering and designed promising preservative in food products. In Nonthermal food processing, safety, and preservation (pp. 299–324).

  • Kumari, D., Janmeda, P., & Singh, D. (2024). Sources, exposure, metabolism, transportation, ecological effects, preventive measures and alternatives of carcinogenic methylene chloride: A review. Discover Toxicology, 1(1), 15.

  • Chaudhary, P., Madan, A., Kumari, D., Apurva, & Janmeda, P. (2025). Challenges and breakthroughs: Lessons from stem-cell-based cancer therapies. In Stem cell therapeutics (pp. 629–671).

  • Apurva, Janmeda, P., Kumari, D., Sharma, N., & Chaudhary, P. (2025). Cardiovascular renaissance: Stem cell strategies for heart diseases. In Stem cell therapeutics (pp. 309–350).

 

Heyu Peng | Engineering | Best Researcher Award

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Mr. Heyu Peng | Engineering | Best Researcher Award

Xi’an Jiaotong University | China

Heyu Peng is an emerging researcher in the field of nuclear science and technology, currently pursuing his doctoral studies at the School of Nuclear Science and Technology, Xi’an Jiaotong University, China, since March . His research primarily focuses on the development and application of advanced computational methods in nuclear engineering, particularly Monte Carlo particle-transport simulations and coupled deterministic–stochastic modeling approaches. He has contributed to significant advancements in the refinement of nuclear simulation tools, demonstrating his expertise in improving accuracy, efficiency, and applicability for nuclear reactor analysis and radiation transport problems. he co-authored a paper published in IEEE Transactions on Nuclear Science that presented a coupled deterministic and Monte Carlo method for modeling and simulating self-powered neutron detectors, a study that addressed critical aspects of detector response modeling and its implications for nuclear instrumentation and monitoring. More recently, a cutting-edge computational tool designed to enhance nuclear reactor physics simulations and broaden its utility in research and practical applications. Through these publications, Peng has established himself as a promising researcher contributing to the advancement of computational nuclear science. His work reflects a strong commitment to bridging theoretical development with real-world applications, offering tools and methodologies that can improve safety, efficiency, and innovation in nuclear energy systems. As a doctoral candidate, Peng continues to expand his research profile, collaborating with experts in the field and contributing to interdisciplinary efforts in nuclear engineering. His growing academic contributions highlight his potential to become a leading researcher in nuclear science, with a focus on computational methods that can shape the future of nuclear technology and its safe, sustainable applications.

Profile: Orcid

Featured Publications

  • He, Q., Zheng, Q., Li, J., Huang, Z., Huang, J., Qin, S., Shu, H., Peng, H., Yang, X., Shen, J., et al. (2024). Overview of the new capabilities in the Monte-Carlo particle-transport code NECP-MCX V2.0. EPJ Nuclear Sciences & Technologies.

  • Zhou, Y., Cao, L., He, Q., Feng, Z., & Peng, H. (2022). A coupled deterministic and Monte-Carlo method for modeling and simulation of self-powered neutron detector. IEEE Transactions on Nuclear Science.

 

Anil Chauhan | Organic Chemistry | Young Researcher Award

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Dr. Anil Chauhan | Organic Chemistry | Young Researcher Award

Osaka University | Japan

Dr. Anil Chauhan is a postdoctoral researcher at Osaka University, Japan, with expertise in catalysis research, asymmetric synthesis, synthetic methodology, and organometallic chemistry. He completed his doctoral studies in Medicinal and Process Chemistry at CSIR-Central Drug Research Institute, Lucknow, under the Academy of Scientific and Innovative Research, where his research focused on developing desymmetrization strategies for the synthesis of ring-fused heterocycles of biological relevance. He also holds a master’s degree in Organic Chemistry and a bachelor’s degree in Mathematics, Chemistry, and Physics from M.J.P. Rohilkhand University, Bareilly. Prior to joining Osaka University, he gained industry experience as a research scientist at Jubilant Biosys Limited, where he worked on drug discovery and process development. Dr. Chauhan has contributed significantly to the field of organic chemistry through multiple publications in high-impact international journals such as Organic Letters and Green Chemistry. His research has centered on innovative synthetic methodologies, catalyst-controlled reactions, and the design of complex polycyclic scaffolds with biological importance. In addition to his publications, he has presented his work at leading conferences and workshops, receiving recognition such as the Best Poster Award and incentive awards for research excellence. He is highly skilled in designing and executing multi-step organic syntheses, handling sensitive reagents and catalysts, and employing advanced techniques such as NMR spectroscopy, mass spectrometry, chromatography, and Schlenk line operations. He also demonstrates proficiency in scientific writing, presentations, student supervision, and the use of computational tools like Chemdraw and SciFinder for research support. Known for his strong dedication, technical expertise, and collaborative spirit, Dr. Chauhan has developed a deep knowledge of desymmetrization and the synthesis of heterocyclic frameworks. With international exposure, academic achievements, and industry experience, he continues to build a research career aimed at advancing innovation in synthetic organic chemistry and contributing solutions with medicinal and therapeutic relevance.

Profile: Google Scholar

Featured Publications

  • Husen, S., Chauhan, A., & Kumar, R. (2020). Site-selective 1,3-double functionalization of arenes using para-quinol, C–N, and C–C/C–P three-component coupling. Green Chemistry, 22(4), 1119–1124.

  • Patel, R. K., Chauhan, A., Jha, P., Kant, R., & Kumar, R. (2022). Catalytic Friedel–Crafts alkylative desymmetrization of cyclohexa-2,5-dienones: Access to linear and bridged polycyclic pyrroles and 3-arylpyrroles. Organic Letters, 24(29), 5422–5427.

  • Patel, R. K., Jha, P., Chauhan, A., Kant, R., & Kumar, R. (2024). Polycyclic pyrazoles from alkynyl cyclohexadienones and nonstabilized diazoalkanes via [3+2]-cycloaddition/[1,5]-sigmatropic rearrangement/aza-Michael reaction cascade. Organic Letters, 26(4), 839–844.

  • Mishra, A. K., Chauhan, A., Kumar, S., Kant, R., & Kumar, R. (2023). Catalyst-controlled diastereoselective synthesis of bridged [3.3.1] bis(indolyl)-oxanes and oxepanes via desymmetrization of bis(indolyl)-cyclohexadienones. Organic Letters, 25(17), 3034–3039.

  • Chauhan, A., Patel, R. K., Grellier, M., & Kumar, R. (2020). Hydrogen-bond-guided reaction of cyclohexadienone-aldehydes with amines: Synthesis of an aminal group containing a fused tetracyclic framework. Organic Letters, 22(15), 6177–6181.

 

Sunil Kumar | Energy and Environment | Young Scientist Award

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Dr. Sunil Kumar | Energy and Environment | Young Scientist Award

National Institution for Transforming India Aayog | India

Dr. Sunil Kumar is a distinguished energy and climate change expert with over 12 years of experience in sustainable energy, green transition, and climate policy. Currently serving as a Consultant at NITI Aayog, Government of India, he specializes in net-zero transitions, sustainable cooling, building energy research, and clean energy adoption. Dr. Kumar holds a Ph.D. in Energy and Environment from Malaviya National Institute of Technology, Jaipur, where his research focused on quantifying occupant adaptive actions to improve indoor environmental quality. He also earned an M.Tech in Mechanical Engineering from Guru Jambheshwar University of Science and Technology, Hisar, and a B.E. in Mechanical Engineering from Maharshi Dayanand University, Rohtak. A Certified Energy Manager and LEED Green Associate, Dr. Kumar has made significant contributions to national energy policy, including developing India’s net-zero roadmap for buildings and promoting sustainable cooling technologies. He has held key roles at TERI, Design2Occupancy Services LLP, and other organizations, leading projects on energy efficiency, climate-responsive cooling, and building energy standards. He has authored numerous high-impact publications in journals like Renewable and Sustainable Energy Reviews and Journal of Building Engineering, and has contributed to multiple books and policy guides on energy efficiency and sustainable development. Recognized globally, Dr. Kumar ranks among the top of scientists worldwide and has received awards such as Young Energy Professional of the Year and nominations for the Energy Heroes Innovator Award. His expertise spans data analysis, energy modeling, and technology-driven solutions for low-emission, sustainable practices. Fluent in English and Hindi, proficient in Python, SPSS, Tableau, and building simulation tools, he actively contributes as an editor, reviewer, and speaker in international forums. Dr. Kumar’s career reflects a deep commitment to advancing sustainable energy practices, climate resilience, and policy innovation to drive India’s green transition and global sustainability goals

Profile: Google Scholar

Featured Publications

  • Gonzalez-Lezcano, R. A., & Sansaniwal, S. K. (2024). Efficient installation strategies that guarantee comfort, well-being, and health in interior spaces. In Design strategies for efficient and sustainable building facilities (Vol. 1, pp. 402–424).

  • Sansaniwal, S. K., & Gupta, G. (2024). Enhancing building energy efficiency assessment through benchmarking techniques. In Design strategies for efficient and sustainable building facilities (Vol. 1, pp. 324–349).

  • Sansaniwal, S. K., & Gonzalez-Lezcano, R. A. (2024). Towards integrating occupant behavioral modeling with building performance simulation. In Design strategies for efficient and sustainable building facilities (Vol. 1, pp. 305–323).

  • Bhutani, V., Bahadur, P. S., Sansaniwal, S. K., & Bais, P. (2024). Youth studies in the AI era: Navigating uncharted territory. In Exploring youth studies in the age of AI (Vol. 1, pp. 393–413).

 

Godfred Bonsu| Circuit and Signal Processing | Best Researcher Award

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Mr. Godfred Bonsu | Circuit and Signal Processing | Best Researcher Award

Iowa State University | United States

Godfred Osei Bonsu is a highly motivated and accomplished electrical engineer currently pursuing a Ph.D. in Electrical Engineering at Iowa State University, where he maintains a perfect GPA and focuses on analog and mixed-signal VLSI circuit design, data converters, microwave engineering, and data analytics. His research centers on ultra-small area, low-cost DAC design, analog fault detection, and multisite analog and mixed-signal testing, where he develops innovative methodologies to detect soft faults, improve INL and DNL, and decompose cross-wafer die-specification variations. Godfred has contributed to multiple high-impact publications, including works on redundancy-interpolated DACs, statistical analysis of nonlinearity errors, and high-resolution waveform generation, accepted at prestigious conferences such as the International Test Conference and IEEE International Midwest Symposium on Circuits and Systems. Before his doctoral studies, Godfred earned a B.Sc. in Electrical and Electronic Engineering from Kwame Nkrumah University of Science and Technology, graduating with distinction and receiving the Tullow Oil Scholarship for academic excellence. He has also been recognized on the Provost’s List multiple times and was part of the winning team of the National Science and Maths Quiz. His technical skills include Python, MATLAB, Cadence Virtuoso, and INNOVUS, applied in designing operational amplifiers, bandgap voltage references, current mirrors, and efficient data converter architectures. Godfred combines his research expertise with hands-on teaching experience, having served as a teaching assistant at KNUST for courses including power electronics, electric drives, and synchronous machines. Additionally, he has reached thousands of students worldwide as an online tutor, providing high-quality lessons in linear electronic circuits, power generation, and applied electricity. With a strong foundation in research, teaching, and innovation, Godfred is dedicated to advancing the field of electrical engineering through cutting-edge circuit design, rigorous testing methodologies, and impactful knowledge dissemination.

Profile: Orcid

Featured Publications

  • Bonsu, G., Tamakloe, K., Bruce, I., Nti Darko, E., & Chen, D. (2025). Redundancy-interpolated three-segment DAC with on-chip digital calibration for improved static linearity. Paper accepted at International Test Conference.

  • Nti-Darko, E., Karimpour, S., Bruce, I., Bonsu, G., & Chen, D. (2025). Ultra-pure high-resolution waveform generation using low-cost data converters with dithering. Paper accepted at International Test Conference.

  • Bonsu, G., Bruce, I., Nti-Darko, E., Tamakloe, K., & Chen, D. (2025). Statistical analysis of the nonlinearity errors of unary and binary-weighted DACs. Manuscript submitted to International Test Conference.

  • Bonsu, G., Bruce, I., Nti-Darko, E., Tamakloe, K., & Chen, D. (2025). A three-segment small area interpolating DAC with redundancy-based calibration for high linearity. Paper accepted at IEEE International Midwest Symposium on Circuits and Systems.

 

Stuti Arya | Chemistry | Best Scholar Award

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Ms. Stuti Arya | Chemistry | Best Scholar Award

Govind Ballabh Pant University of Agriculture and Technology | India

Ms. Stuti Arya is a passionate and dedicated chemistry scholar specializing in organic chemistry, natural products, and phytochemistry, currently pursuing her Ph.D. in Chemistry. She has developed strong expertise in advanced laboratory techniques, including synthesis, extraction, isolation, and characterization of nanoparticles and bioactive compounds. Stuti has a proven ability to integrate innovative research approaches with effective teaching methodologies, fostering student engagement and academic excellence. She holds a Master’s degree in Chemistry from Govind Ballabh Pant University of Agriculture and Technology, Pantnagar, and a Bachelor’s degree in Chemistry, Zoology, and Botany from Mahatma Jyotiba Phule Rohilkhand University, Bareilly. Her academic journey reflects consistent excellence, combining rigorous training with a focus on interdisciplinary research. Throughout her career, Stuti has actively contributed to the advancement of chemical sciences through research on essential oils, pesticidal efficacy, and phytochemical analysis of wild edible fruits. She has authored multiple research publications in reputed journals, highlighting her work on the chemical composition and therapeutic applications of bioactive compounds. In addition, she has presented her research at several national and international conferences, demonstrating her commitment to knowledge dissemination and scientific collaboration. Her technical expertise spans chromatography, green synthesis of nanoparticles, UV-visible spectrophotometry, GC-MS, molecular docking, and the use of analytical and computational software for chemical analysis. Beyond her research, Stuti has been recognized for her creative and academic achievements, including awards in poster-making and cultural competitions. Fluent in English and Hindi, she combines critical thinking, problem-solving, communication, and collaboration skills to contribute effectively to scientific and academic communities. Her dedication to innovative research, sustainable practices, and interdisciplinary collaboration positions her as a promising contributor to the field of chemical sciences.

Profile: Orcid

Featured Publications

  • Kabdal, T., Prakash, O., Kumar, R., Arya, S., Rawat, D. S., & Kumar, S. (2024). Harnessing the phytochemistry through pesticidal potential of diverse Elsholtzia species: A path to sustainable agriculture. Chemistry & Biodiversity, e202401906.

  • Arya, S., Prakash, O., Kumar, R., Nagarkoti, K., Rawat, A., Srivastava, R. M., … (2023). Comparative compositional analysis and pesticidal efficacy of essential oils from leaves of Skimmia aanquetilia NP Taylor and Airy Shaw.

  • Verma, B., Arya, S., Kabdal, T., Arya, V., Prakash, O., Kumar, R., Dubey, S. K., … (2024). Phytochemical analysis and therapeutic applications of some wild edible fruits growing in Uttarakhand Himalayas. European Journal of Chemistry, 15(2), 110–119.

  • Arya, S., Prakash, O., Singh, S., Kabdal, T., Kumar, R., Rawat, D. S., Srivastava, R. K., … (2025). Synergistic potential of Boenninghausenia albiflora (Hook.) Rchb. ex Meisn. essential oil blends against Meloidogyne incognita and Spodoptera litura: A natural approach to pest control. Chemistry & Biodiversity, e202500384.

 

Pavlo Lykhovyd | Agriculture | Young Scientist Award

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Dr. Pavlo Lykhovyd | Agriculture | Young Scientist Award

Institute of Climate-Smart Agriculture of the National Academy of Agrarian Sciences of Ukraine | Ukraine

Dr. Pavlo Lykhovyd is a distinguished agricultural scientist and leading researcher at the Institute of Climate-Smart Agriculture of the National Academy of Agrarian Sciences of Ukraine. With a Doctorate in Agricultural Sciences, he specializes in land reclamation, irrigated and precision agriculture, agroecology, GIS/remote sensing, and AI/ML applications in agriculture. Over the course of his career, he has published more than 400 articles, including over 50 in WoS/Scopus-indexed journals, and contributed to highly cited works in the field. As head of the Council of Young Scientists, Pavlo has led numerous innovative projects on crop production, adaptive technologies, and digital agriculture, including GIS-based remote sensing applications and predictive modeling for irrigation and yield optimization. His work integrates scientific research with practical applications, providing consultancy to private farms and collaborating internationally on crop adaptation studies. Pavlo has authored books on neural networks in agriculture and crop production on reclaimed lands, and holds multiple patents and copyrights for agricultural software, including the Ukraine Crop Production Map and AI-driven irrigation tools. His contributions have advanced agricultural digitalization, resource-efficient irrigation, and agroecological zoning, directly enhancing productivity and sustainability in Ukraine’s steppe regions. Recognized with the President of Ukraine Prize for Young Scientists, he continues to pioneer AI and remote sensing solutions for large-scale crop monitoring, yield prediction, and climate-smart agriculture. Pavlo actively participates as a guest reviewer and editorial board member in international journals, promoting scientific rigor and innovation in modern agronomy. His research bridges traditional agricultural practices with cutting-edge technology, shaping the future of precision farming, sustainable land management, and climate-resilient agricultural systems across Ukraine and beyond.

Profile: Google Scholar

Featured Publications

  • Vozhehova, R. A., Lavrynenko, Y. O., Kokovikhin, S. V., Lykhovyd, P. V., … (2018). Assessment of the CROPWAT 8.0 software reliability for evapotranspiration and crop water requirements calculations. Journal of Water and Land Development, 147–152.

  • Lykhovyd, P. (2020). Sweet corn yield simulation using normalized difference vegetation index and leaf area index. Journal of Ecological Engineering, 21(3), 34.

  • Lykhovyd, P. (2021). Irrigation needs in Ukraine according to current aridity level. Journal of Ecological Engineering, 22(8), 30.

  • Tyshchenko, O., Tyshchenko, A., Piliarska, O., Kuts, H., & Lykhovyd, P. (n.d.). Evaluation of drought tolerance in alfalfa (Medicago sativa) genotypes in the conditions of osmotic stress. AgroLife Scientific Journal, 9(2).

 

Amit Patel | Organic Synthesis Chemistry | Young Scientist Award

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Mr. Amit Patel | Organic Synthesis Chemistry | Young Scientist Award

Research Scholar | Basnaras Hindu University | India

Mr. Amit Patel is a dedicated researcher in the Department of Chemistry at Banaras Hindu University, pursuing his doctoral studies under the guidance of Prof. Ashish Kumar Tewari with a thesis focused on utilizing C–C bond formation reactions for the synthesis of novel organic frameworks. He completed his Bachelor’s degree with honors in Chemistry, followed by a Master’s specialization in Organic Chemistry at the same university, consistently achieving strong academic results that laid the foundation for his research career. His expertise lies in synthetic organic chemistry, supramolecular interactions, and computational studies, with additional interests in material chemistry and nanotechnology. He has actively participated in numerous workshops and training programs, including those focused on nanomaterials, scientific writing, and interdisciplinary research at prestigious institutes across India, enhancing both his technical and professional skills. His academic engagement is further reflected in his poster and oral presentations at national and international conferences, where he has showcased research on molecular design, supramolecular assemblies, and drug discovery. His contributions have been recognized through several awards and certifications, including honors from the India International Science Festival, CSIR training programs, Accelerate Vigyan initiatives, and international recognition for best oral presentations. He has also been awarded a postdoctoral fellowship by the University of Cyberjaya, Malaysia, highlighting his growing international presence. His research achievements include publications in peer-reviewed journals such as the Journal of Molecular Structure, where he co-authored significant work on ultrasound-assisted ring opening of epoxides and computational docking studies. According to Scopus metrics, he has received 1 citation from 1 document with an h-index of 1, reflecting the early but impactful nature of his scholarly contributions. With a strong blend of academic accomplishments, research innovation, and global exposure, Mr. Amit Patel is steadily building a promising career in chemistry, aiming to contribute novel insights into organic frameworks, drug development, and materials science while continuing to expand his collaborative and interdisciplinary engagements.

Featured Publications

  • Sharma, V. P., Nidhar, M., Sheraj, M., Kumar, V., Sonker, P., Patel, A., Gill, S., Sura, S., & Tewari, A. K. (2024). Ultrasound-assisted ring opening of epoxides in HFIP:THF: Synthesis, characterization, computational studies and molecular docking of novel 2-hydroxy dithiocarbamates. Journal of Molecular Structure, 1318, 139212.