Tshegofatso Mogase | Child Health | Best Researcher Award

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Mrs. Tshegofatso Mogase | Child Health | Best Researcher Award

Sefako Makgatho Health Science University & University of Stirling | South Africa 

Mrs. Tshegofatso Mogase (née Rampudu) is a committed and passionate academic and researcher in the field of physiology and health sciences, with a focus on paediatrics, severe acute malnutrition, and refeeding syndrome. She is a cotutelle Ph.D. candidate in the UK-SA DHET Doctoral Training Program, supported by a SAMRC grant, allowing her to engage in extensive collaborative research opportunities. Her research explores the application of Bioelectrical Impedance Vector Analysis to assess refeeding syndrome in severely malnourished children, contributing to improved diagnostics and clinical management. Tshegofatso holds an M.Sc. in Medicine (Physiology) from Sefako Makgatho Health Sciences University, where her research investigated metabolic syndrome and oxidative stress, earning recognition for her academic excellence, and a B.Sc. Honours in Medical Science (Physiology) from the University of Limpopo. Professionally, she serves as Principal Technical Officer at Sefako Makgatho Health Sciences University, coordinating postgraduate physiology programs, lecturing undergraduate and honours students, supervising research projects, and mentoring students in research methodology, experimental design, and presentation skills. She has extensive experience in physiology practicals, including cardiovascular, renal, respiratory, neurophysiology, and special senses systems. Her previous roles include a research fellowship where she supported undergraduate learning through practical applications. She has supervised and co-supervised multiple honours and MSc projects addressing nutrition, obesity, diabetes, and experimental physiology, demonstrating her mentorship capabilities and commitment to student development. Tshegofatso has actively disseminated her research through publications, including a systematic review and meta-analysis on refeeding syndrome in sub-Saharan Africa, and presented at national and international conferences, earning awards for her contributions in maternal and child health and nutrition research. She possesses strong research, technical, and professional skills, including project management, grant writing, data analysis, laboratory techniques, and digital teaching methods. Beyond academia, she is engaged in community health initiatives, promoting awareness of lifestyle diseases and nutrition in local communities, reflecting her dedication to translating research into societal impact.

Featured Publications

Mogase, T., Van Onselen, A., Rodriguez-Sanchez, N., & Galloway, S. D. R. (2025). The identification and management of refeeding syndrome in inpatient severely acutely malnourished children aged 6 to 59 months in Sub-Saharan African countries: A systematic review and meta-analysis. Children, 12(9), 1223.

Vincelet Jobikha A | Glass Ceramics | Young Scientist Award

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Ms. Vincelet Jobikha A | Glass Ceramics | Young Scientist Award

Saveetha Engineering College | India

Ms. Vincelet Jobikha is a dedicated Ph.D. researcher specializing in glass and glass ceramics, focusing on rare earth-doped tellurite glasses for radiation shielding applications at Saveetha Engineering College, affiliated with Anna University. Her research involves synthesizing rare earth-doped tellurite glass using the melt-quenching method and investigating its structural properties through XRD and FTIR analysis, optical behavior via UV-Vis-NIR and photoluminescence studies, and gamma-ray shielding potential through parameters such as MAC, LAC, Zeff, and HVL, aiming at applications in radiation protection and dosimetry. She has contributed to several publications, including a study on lead-free Tm³⁺ doped zinc tellurite glass and Ho³⁺ doped zinc borophosphate glass in Radiation Physics and Chemistry, and holds multiple patents for innovative glass systems for radiation shielding. Vincelet has actively engaged in international and national conferences, presenting her work at forums such as the International Conference on Sustainable Materials for Energy Applications, the 3rd International Conference on Light Applications in Science & Engineering Research, and the International Conference on Innovations in Science and Humanities. She has participated in seminars on nanoelectronics and advanced functional materials, workshops on microstructural analysis and research proposal writing, and GIAN courses focused on functional coatings and nanomaterials in chemical and biosensors, which have expanded her expertise in advanced glass materials and their multifunctional applications. Her research contributions highlight a strong foundation in materials synthesis, structural and optical characterization, and applied radiation shielding, demonstrating both academic rigor and practical relevance. With active participation in conferences, seminars, and workshops, she continues to build a robust profile in materials science research, contributing valuable insights toward sustainable and advanced materials for energy, healthcare, and radiation protection applications.

Featured Publications

inothkumar, P., Yamini, B., Praveenkumar, S., & Jobikha, A. V. (2025). Synthesis, structural, and optical properties of lead-free Tm3+ ions doped zinc tellurite glass and Ho3+ ions doped zinc borophosphate glass for radiation shielding application. Radiation Physics and Chemistry.

Yosef Wubet | Electrical Engineering | Best Researcher Award

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Mr. Yosef Wubet | Electrical Engineering | Best Researcher Award

University of Gondar Institute of Technology | Ethiopia

Mr. Yosef Birara Wubet is a distinguished lecturer and researcher in the Electrical and Computer Engineering Department at the University of Gondar Institute of Technology, Ethiopia. He earned a Master of Science in Power System Engineering and a Bachelor of Science in Electrical Engineering, specializing in Electrical Power and Control Engineering from Bahir Dar University, demonstrating exceptional academic performance. Yosef’s research focuses on the application of machine learning for transient stability assessment, fault detection and classification, power system stability and reliability, renewable energy integration, solar power design, smart grid systems, and controller modeling and design. He has led and contributed to multiple innovative projects, including the development of a hybrid solar and wind energy system with battery storage using artificial neural networks for optimal energy scheduling, and enhancing hydropower plant transient stability through FACTS devices controlled by machine learning tools. Yosef has also developed fault detection models using convolutional neural networks and solar-powered smart robotic systems, showcasing his expertise in integrating advanced computational techniques with practical engineering solutions. Yosef combines teaching, research supervision, and project management, mentoring undergraduate students and guiding team-based research projects. He possesses strong proficiency in engineering software such as MATLAB, PSpice, Dig Silent, Homer Pro, Python, AutoCAD, ETAP, LTspice, and Multisim, alongside excellent communication, leadership, and problem-solving skills. Fluent in Amharic and English, Yosef holds professional licenses for electrical installation and maintenance of grid-connected and off-grid solar power systems. He has been recognized for his outstanding academic projects and professional contributions, earning awards for excellence in engineering design and research. Beyond his professional pursuits, he enjoys reading scholarly articles, engaging in sports and bodybuilding, listening to music, and contributing to community initiatives. Through his expertise in power systems, renewable energy, and smart grid technologies, Yosef Birara Wubet continues to advance sustainable energy solutions and innovative research in electrical engineering.

Featured Publications

  • Wubet, Y. B., Getahun, H. M., Alemu, Y. A., & Gela, T. T. (2025). Transient stability assessment and enhancement of hydropower plant using artificial neural network. Scientific African, e02970.

  • Wubet, Y. B., Gela, T. T., & Getahun, H. M. (2025). Design and modeling of ANN based automatic generation control and automatic voltage regulator for two integrated hydro power plants in Ethiopia. Scientific African, e02958.

Kumaran Thanikasalam | Mechanical Engineering | Young Scientist Award

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Mr. Kumaran Thanikasalam | Mechanical Engineering | Young Scientist Award

Anna University| India

Mr. Kumaran Thanikasalam is an exceptional Master of Science candidate specializing in Aerospace Engineering with a focus on advanced propulsion systems and computational modeling. He holds a Bachelor of Engineering in Mechanical Engineering from College of Engineering Guindy, Anna University, Chennai, where he demonstrated academic excellence with a high CGPA. Kumaran has cultivated a deep understanding of fluid dynamics, physics, nuclear fusion propulsion, and aerospace systems, complemented by hands-on experience in machine design, hydraulic systems, and opto-electromechanical instrumentation. He has contributed to innovative research projects, including the development of a high-precision opto-electromechanical linear comparator, volumetric strain energy theory for material failure prediction, and advanced machine learning–driven measurement systems. His work integrates computational modeling, mechanism design, fabrication, and programming in Python and Arduino, showcasing interdisciplinary expertise. Kumaran has also designed and analyzed complex gear systems, hydraulic circuits, micro sandblasting machines, and automated devices for precision applications. Kumaran’s achievements extend beyond academia, earning numerous national and international awards for excellence in science, mathematics, aerospace engineering, and innovative problem-solving. His accolades include the Bharat Vibhushan Award, Genius Indian Achievers Award, and recognitions from multiple national and international record organizations, along with college-level gold medals and prizes for academic and co-curricular accomplishments. He has completed multiple internships and training programs, gaining practical experience in rocket engine projects, aerodynamic analysis, cryogenic technology, aircraft design, and product development with industry leaders and online platforms. Proficient in software tools such as ANSYS, COMSOL Multiphysics, SolidWorks, Catia, OpenFOAM, and MATLAB, he combines technical expertise with strong analytical, leadership, and project management skills. Fluent in English and Tamil, Kumaran is a professional member of several aerospace, engineering, and scientific societies, including AIAA, RAeS, IEEE, ASME, and the National Space Society. Through his innovative research, interdisciplinary skills, and leadership in project execution, he is poised to make significant contributions to aerospace engineering, advanced propulsion research, and precision measurement technologies.

Featured Publications

  • Thanikasalam, K. (2024). Design and kinematic analysis of a two-sided asymmetric scotch yoke mechanism with variable stroke lengths. Premier Journal of Engineering.

  • Thanikasalam, K. (2024, November 11). Design of a hydraulic circuit for a four-sided shaper machine. [Preprint].

  • Thanikasalam, K. (2024, November 11). Design of a hydraulic circuit for a two-sided shaper machine. [Preprint].

  • Thanikasalam, K., & MalarMohan, K. (2024, November 11). Volumetric strain energy theory of failure. [Preprint].

  • Thanikasalam, K., Srihari, S., Kaushik, S., & Samuel Raj, D. (2025). Machine learning-enabled high accuracy opto-electromechanical linear comparator. Measurement, Elsevier.

 

Saurabh Punia | Pharmaceutics | Young Scientist Award

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Mr. Saurabh Punia | Pharmaceutics | Young Scientist Award

Chhatrapati Shahu Ji Maharaj University | India

Mr. Saurabh Punia is a highly motivated pharmacy professional currently completing his Master of Pharmacy at CSJMU, Kanpur, following a Bachelor of Pharmacy from I.T.S, Ghaziabad. With a strong academic record, he has demonstrated excellence in pharmaceutical sciences and research, complemented by hands-on training in government hospitals and industrial exposure at Pharmasynth Formulations Pvt. Ltd. His professional experience includes working as a Senior Technical Data Associate at CDSCO, New Delhi, where he contributed to regulatory and technical data management. Saurabh has actively engaged in academic and scientific communities through numerous conferences, seminars, webinars, and workshops at national and international levels. He has presented posters and delivered presentations on diverse topics, including antimicrobial transdermal patches, extracellular vesicles for drug delivery, wound healing innovations, and advancements in pharmaceutical technology. His research contributions have been published in reputable journals, covering areas such as computer-aided drug design, precision drug delivery, and novel formulation development. Beyond academics, Saurabh has demonstrated strong leadership and organizational skills by serving as class representative, event organizer for pharmaceutical fests, and volunteer in multiple campaigns, including mass awareness programs and integrity initiatives. He has also participated in international forums like IMUN in Vietnam, engaging in diplomatic discussions and global networking. His training includes workshops on nanofibers, research statistics via SPSS, and advanced chromatographic techniques, while certifications highlight his commitment to AI, machine learning, and data science applications in pharmacy. Saurabh combines his practical experience, research expertise, and academic achievements with active participation in extracurricular activities, making him a well-rounded professional. Fluent in Hindi and English, he is committed to advancing pharmaceutical sciences, innovative drug delivery systems, and healthcare solutions, demonstrating both technical proficiency and leadership in the field.

Featured Publications

  • Monoclonal antibodies for targeting drug delivery system. International Journal of Creative Research Thoughts (IJCRT).

  • Applications of computer aided drug design in pharmaceutical sciences. Acta Scientific Pharmaceutical Sciences (ASPS).

  • Formulation and evaluation of antimicrobial transdermal patch by using Azadirachta indica and Curcumin longa. World Journal of Pharmaceutical Research (WJPR).

  • Formulation and evaluation of microemulsions founded topicals gel of ethanol extract of lemon grass (Cymbopogon) for antifungal activity. High Technology Letters (HDL).

  • Extracellular vesicles: Innovative nanotheranostic platforms for precision drug delivery. Drug Delivery Letters, Bentham Science Publishers.

 

Qiuping Wang | Environmental Engineering | Best Researcher Award

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Dr. Qiuping Wang | Environmental Engineering | Best Researcher Award

Tongji university | China

Qiuping Wang is a distinguished Ph.D. candidate at the College of Civil Engineering, Tongji University, under the guidance of Prof. Shuguang Liu, with a strong academic record. She earned her Master’s degree in Aquaculture from South China Agricultural University and her Bachelor’s degree in Aquaculture from Beibu Gulf University, establishing a solid foundation in environmental and aquatic sciences. Her research integrates civil engineering, environmental science, and computational approaches, focusing on water distribution networks, pipeline integrity, risk assessment under ground settlement, and the environmental impacts of nanoplastics. Her academic impact is reflected in 65 citations across 65 documents, 11 published documents, and an h-index of 3, underscoring the significance of her contributions to both engineering and environmental research. Qiuping has an extensive publication record with significant citations, contributing to high-impact research on automatic image analysis of water pipes, machine learning for pipeline predictive analysis, and risk assessment of coastal city water networks. She has also investigated the neurotoxicity and hepatotoxicity of polystyrene nanoplastics and polybrominated diphenyl ethers in aquatic organisms, including zebrafish, Hainan Medaka, and grass carp, addressing critical ecological and toxicological challenges. Her studies include microplastic distribution in freshwater sediments, pollutant interactions, and effects on gut microbiota and oxidative stress in aquatic species. Her research has been published in top-tier journals and presented at international conferences such as the International Ocean and Polar Engineering Conference. By combining experimental techniques, computational modeling, and interdisciplinary approaches, Qiuping develops innovative solutions in water infrastructure management, environmental protection, and aquatic toxicology. Fluent in Chinese and English, she continues to make impactful contributions to sustainable engineering, environmental science, and the understanding of microplastic pollution, bridging practical applications with fundamental research in aquatic ecosystems and civil infrastructure.

Featured Publications

  • Wang, Q., Lei, L., Liu, S., et al. (2025). A method for improving the efficiency and effectiveness of automatic image analysis of water pipes.

  • Chen, R., Wang, Q., & Javanmardi, A. (2025). A review of the application of machine learning for pipeline integrity predictive analysis in water distribution networks. Archives of Computational Methods in Engineering, 32(6), 3821–3849.

  • Wang, Q., Liu, S., Zhong, G., et al. (2024). Risk assessment methods for water supply pipeline networks in coastal cities under ground settlement: A case study in Shanghai. International Ocean and Polar Engineering Conference, Greece.

  • Wang, Q., Chen, G., Tian, L., et al. (2023). Neuro- and hepato-toxicity of polystyrene nanoplastics and polybrominated diphenyl ethers on early life stages of zebrafish.

  • Wang, Q., Huang, K., Li, Y., et al. (2022). Microplastics abundance, distribution, and composition in freshwater and sediments from the largest Xijin Wetland Park, Nanning, South China.

  • Wang, Q., Li, Y., Chen, Y., et al. (2022). Toxic effects of polystyrene nanoplastics and polybrominated diphenyl ethers to zebrafish (Danio rerio).

 

Muhammad Sheraj | Heterocyclic Molecules | Young Scientist Award

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Mr. Muhammad Sheraj | Heterocyclic Molecules | Young Scientist Award

Banaras Hindu University | India

Mr. Muhammad Sheraj is a senior research scholar pursuing a Ph.D. in Organic Chemistry at Banaras Hindu University, Varanasi, with a focus on exploring weak non-covalent interactions through the design of flexible heterocyclic molecules. His research spans diverse applications, including drug delivery systems, molecular sensors for ions and biomolecules, self-assembled nanomaterials, supramolecular catalysis, and materials science such as hydrogels and liquid crystals. He also works in medicinal chemistry, designing potential lead molecules using computer-aided drug design, followed by synthesis and biological evaluation. He holds an M.Sc. and B.Sc. in Chemistry from Banaras Hindu University and has qualified the CSIR Junior Research Fellowship and the GATE examination in Chemistry, demonstrating a strong academic foundation. He is skilled in synthesizing heterocyclic organic molecules through one-pot and multi-step methodologies, purifying compounds using column chromatography, and elucidating structures via NMR and HRMS. His expertise extends to spectroscopic techniques including UV, fluorescence, IR, and Raman, crystallization methods, single-crystal X-ray diffraction analysis using OLEX software, and computational studies with Gaussian software. He is also experienced in scientific writing and mentoring junior researchers. Sheraj has contributed to high-impact publications, including studies on DPP-4 inhibitors and ultrasound-assisted ring opening of epoxides in the Journal of Molecular Structure. He has actively presented his work at national and international conferences, including the International Conference on Chemistry for Sustainability at IIT Hyderabad and the Brainstorming Meeting on Chemistry at the Interface at BHU. Recognized for his service as an evaluator for the National Camp of Vidyarthi Vigyan Manthan organized by Vijnana Bharti, he combines a strong academic and research foundation with practical experience in supramolecular chemistry, organic synthesis, and interdisciplinary applications in materials and medicinal chemistry.

Featured Publications

  • Kumar, V., Nidhar, M., Sheraj, M., Sharma, V. P., Gupta, P., Singh, R. K., & Tewari, A. K. (2025). Designing DPP-4 inhibitors: Synthesis, characterization, in silico & in vitro evaluation, and theoretical calculation of flexible compounds linked via ortho xylyl spacers. Journal of Molecular Structure, 142599.

  • 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.

Rakesh Kumar Verma | Organic Synthesis | Young Scientist Award

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Mr. Rakesh Kumar Verma | Organic Synthesis | Young Scientist Award

Banaras Hindu University | India

Mr. Rakesh Kumar Verma is a doctoral researcher in Chemistry at Banaras Hindu University, Varanasi, specializing in organic synthesis with a focus on developing dearomative strategies for constructing carbocyclic and heterocyclic frameworks. His Ph.D. research, conducted under the guidance of Dr. Kishor Chandra Bharadwaj, integrates innovative synthetic methodologies to advance the field of organic chemistry. Prior to his doctoral studies, he earned a Master of Science in Organic Chemistry from the University of Rajasthan with a strong academic record and a Bachelor of Science in Chemistry, Botany, and Zoology from the same university. Rakesh has successfully qualified the CSIR-NET/JRF examination in Chemistry, reflecting his solid academic foundation, and has been awarded both Junior and Senior Research Fellowships to support his doctoral pursuits. His expertise is further enriched through active participation in professional development activities, including a Faculty Development Program on techniques used in Organic Chemistry organized by Navrachana University, Vadodara. Committed to scientific dissemination, he has presented his work at several national and international conferences and contributed to reputed journals. He co-authored research on the “Chemo-selective Intramolecular Rauhut-Currier Reaction” in the European Journal of Organic Chemistry and another on “Domino Sequence of Ketimization and Electrophilic Amination” in the Journal of Organic Chemistry. With a strong academic background, hands-on research experience, and active engagement in collaborative science, Rakesh is emerging as a promising organic chemist dedicated to advancing sustainable methodologies in synthetic chemistry.

Featured Publications

Verma, R. K., Bairwa, M., & Bharadwaj, K. C. (2024). Chemo selective intramolecular Rauhut–Currier reaction on a labile framework of enone and acrylamide: Tricyclohexylphosphine as a stable and economical catalyst. European Journal of Organic Chemistry, 2024(27), e202400901.

Bairwa, M., Verma, R. K., & Bharadwaj, K. C. (2024). Domino sequence of ketimization and electrophilic amination for an inverse aza intramolecular Morita–Baylis–Hillman adduct. Journal of Organic Chemistry, 89(35), 14811–14817.

Arpita Maurya | Polymer Material | Young Scientist Award

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Ms. Arpita Maurya | Polymer Material | Young Scientist Award

Banaras Hindu University | India

Ms. Arpita Maurya is a Ph.D. student in the Department of Chemistry, Institute of Science, Banaras Hindu University, Varanasi, specializing in the design and synthesis of conjugated polymer frameworks for electrocatalytic applications. Her doctoral research focuses on engineering functional monomers and their polymerization to develop conjugated polymer networks for energy-related processes, particularly the hydrogen evolution reaction (HER), oxygen evolution reaction (OER), and oxygen reduction reaction (ORR). She completed her M.Sc. in Chemistry with a specialization in Physical Chemistry from Banaras Hindu University, where she secured, and a B.Sc. in Physical Science from Veer Bahadur Singh Purvanchal University Arpita has qualified for prestigious competitive examinations including CSIR-NET (JRF, and she is the recipient of a Senior Research Fellowship from the University Grants Commission. Her research experience is strongly supported by expertise in advanced instrumental techniques, including FT-IR, NMR, TGA, SEM, TEM, XRD, UV-Vis, electrochemical analyzers, XPS, and DFT calculations, along with proficiency in handling Schlenk line techniques for air- and moisture-sensitive reactions. She has authored and co-authored several publications in reputed journals such as ACS Applied Energy Materials and ACS Applied Polymer Materials, with her contributions highlighting advances in polymer-based electrocatalysts, photoluminescence tuning, light-harvesting systems, and photocatalysis. She has also presented her work at national and international platforms, including the National Symposium on Chemistry at the Interface (BHU) and the European Polymer Congress (EPF Groningen). With 2 citations by 2 documents, 4 documents, and an h-index of 1, Arpita is emerging as a promising researcher. Fluent in Hindi and English, she demonstrates strong analytical and problem-solving skills, a positive outlook, and collaborative spirit, while actively contributing to innovative research in sustainable electrocatalytic applications under the guidance of Prof. Biplab Kumar Kuila at BHU.

Featured Publications

  • Maurya, A., Singh, P., Gupta, N., Anamika, Dixit, M., & Kuila, B. K. (under revision). Engineering triazine-based conjugated polymer network for boosting electro-catalytic hydrogen evolution reaction. ACS Applied Energy Materials.

  • Anamika, Gupta, N., Sharma, D., Maurya, A., Kumar, A., Jou, J. H., & Kuila, B. K. (2025). Side chain polarity-dependent photoluminescence and deep blue electroluminescence in fluorene-based conjugated polymer network. ACS Applied Polymer Materials, 7(9), 5672–5683.

  • Gupta, N., Anamika, Maurya, A., Hazra, S., Pal, B. N., & Kuila, B. K. (2025). Efficient photoinduced charge transfer between linear conjugated polymer and polymer network for light harvesting application. ACS Applied Polymer Materials, 7(10), 5874–5883.

  • Anamika, Gupta, N., Maurya, A., & Kuila, B. K. (2025). Highly fluorescent conjugated polymer network as reversible and colorimetric probe for ultrafast detection of BF3 and amine. ACS Applied Polymer Materials, 7(4), 2584–2594.

  • Laxmi, R., Anshuman, Gupta, N., Anamika, Maurya, A., Behere, P. R., Sharma, R., Maiti, B., & Kuila, B. K. (2024). Fluorene and triazine-based conjugated polymer networks with tuned frontier orbital energy levels for improving organic photocatalysis. ACS Applied Polymer Materials, 6(24), 15136–15149.

 

Shalinee Dubey | Energy Conversion | Young Scientist Award

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Dr. Shalinee Dubey | Energy Conversion | Young Scientist Award

Banaras Hindu University | India

Dr. Shalinee Dubey is a dedicated research scholar at the Department of Chemistry, Banaras Hindu University, Varanasi, focusing on materials chemistry, electrocatalysis, and energy storage. Her research aims to develop innovative electrocatalysts for sustainable energy conversion, integrating advanced nanomaterials with electrochemical applications. She has contributed to the synthesis and characterization of various functional materials using techniques including FESEM, TEM, HR-TEM, XRD, Raman spectroscopy, IR spectroscopy, BET analysis, XPS, and electrochemical studies such as Mott-Schottky analysis, Tauc plots, EIS spectra, and cyclic voltammetry. Shalinee has hands-on experience with instrumentation including Pinewave Vertex200, CHI660C, and various furnaces under inert atmospheres, along with proficiency in software packages such as Origin, ChemDraw, Mendeley, Zsimpwin, and Fortran 90. She has guided a master’s student on the microwave-assisted synthesis of γ-Fe₂O₃ nanoparticles for electrocatalytic applications and has published research in high-impact journals including the Journal of the Indian Chemical Society, International Journal of Hydrogen Energy, and ACS Applied Energy Materials, with additional manuscripts under review. She has presented her work at multiple national and international conferences, demonstrating her commitment to knowledge dissemination and collaboration. Shalinee’s academic foundation includes an M.Sc. in Chemistry from BHU and a B.Sc. in Physical Science from Veer Bahadur Singh Purvanchal University, complemented by competitive qualifications including IIT-JAM, GATE, and UGC-NET/JRF. Recognized for her analytical approach, positive attitude, teamwork, and dedication to staying updated with scientific developments, she actively contributes to advancing sustainable energy research through innovative material design and electrocatalytic applications, bridging fundamental science with practical energy solutions.

Featured Publications

  • Pandey, S., Rathour, V., Singh, S., Singh, V., Tiwari, A., Dubey, S., et al. (2025). Hydrothermal synthesis of Co3O4@soybean-derived carbon for sensitive electrochemical detection of chloramphenicol in food products. Journal of the Indian Chemical Society, 101964.

  • Pandey, J., Basu, S., Dubey, S., et al. (2025). Improved electrocatalytic performance of delaminated-MXene and cobalt ferrite nanocomposite for hydrogen evolution in acidic medium. International Journal of Hydrogen Energy.

  • Pandey, S., Dubey, S., et al. (2025). Vanadium-doped FeNiSe4 as a high-performance oxygen evolution electrocatalyst: Synergistic effects of Se-Ni-Fe hybridization and vanadium-induced electronic modulation. ACS Applied Energy Materials.