Tag: best international chemical engineering award

Yasmin Shabeer | Chemical Engineering | Best Researcher Award

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Ms. Yasmin Shabeer | Chemical Engineering | Best Researcher Award

University of Waterloo, Canada

Yasmin Shabeer is a highly motivated Ph.D. candidate in Chemical Engineering with a specialization in Electrochemical Engineering and Battery Systems, currently pursuing her doctorate at the University of Waterloo under the supervision of Dr. Michael Fowler. She holds a B.Tech in Rubber and Plastics Technology from Anna University, India, and has gained extensive research experience in high-energy-density aluminum-air batteries, lithium-ion thermal modeling, metal-air battery comparative studies, and corrosion analysis of Al6061 electrodes. Her research focuses on integrating experimental electrochemical techniques, such as electrochemical impedance spectroscopy (EIS), distribution of relaxation time (DRT) analysis, linear sweep voltammetry (LSV), and cyclic voltammetry (CV), with advanced data-driven approaches including machine learning models for predicting polarization behavior, corrosion current density, and impedance parameters, alongside life cycle assessment (LCA) for environmental sustainability. She has contributed to the design, prototyping, and optimization of battery systems through systematic experimental studies, collaboration with industry partners like AlumaPower and Stellantis, and applied modeling using MATLAB, COMSOL, Python, and simulation software for design-of-experiments (DoE). Yasmin has authored five peer-reviewed publications with 111 citations and an h-index of 4, reflecting the impact of her work on the field of sustainable energy storage. She has been recognized with awards including the Bhattacharyya Award, Mitacs Graduate Fellowship, Devani Charities Graduate Award, and International Master’s Award of Excellence, highlighting her academic excellence, innovation, and leadership potential. Beyond research, she has served as a teaching assistant, laboratory manager, Mitacs mentor, and graduate student leader, demonstrating her commitment to education, mentorship, and community engagement. With expertise spanning electrochemical systems, material characterization, battery optimization, AI-assisted modeling, and sustainability analysis, Yasmin combines scientific rigor, interdisciplinary collaboration, and practical innovation, positioning her as a promising future leader in clean energy technology, electrochemical research, and sustainable battery solutions.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

  1. Mevawalla, A., Shabeer, Y., Tran, M. K., Panchal, S., Fowler, M., & Fraser, R. (2022). Thermal modelling utilizing multiple experimentally measurable parameters. Batteries, 8(10), 147

  2. Madani, S. S., Shabeer, Y., Allard, F., Fowler, M., Ziebert, C., Wang, Z., & Panchal, S. (2025). A comprehensive review on lithium-ion battery lifetime prediction and aging mechanism analysis. Batteries, 11(4), 127.

  3. Shabeer, Y., Madani, S. S., Panchal, S., Mousavi, M., & Fowler, M. (2025). Different metal–air batteries as range extenders for the electric vehicle market: A comparative study. Batteries, 11(1), 35.

  4. Madani, S. S., Allard, F., Shabeer, Y., Fowler, M., Panchal, S., & Ziebert, C. (2025). Exploring the aging dynamics of lithium-ion batteries for enhanced lifespan understanding. Journal of Physics: Conference Series, 2968(1), 01201.

  5. Shabeer, Y., Madani, S. S., Panchal, S., & Fowler, M. (2025). Performance optimization of high energy density aluminum–air batteries: Effects of operational parameters and electrolyte composition. Future Batteries, 100082.

Yasmin Shabeer’s work advances the development of high-performance, sustainable energy storage systems by integrating experimental electrochemistry, machine learning, and life cycle assessment. Her research directly contributes to cleaner energy technologies, efficient battery design for electric vehicles, and environmentally responsible industrial applications, driving innovation in both science and industry.

Tian Wang | Chemical Engineering | Best Researcher Award

Published on by Shen Awards

Dr. Tian Wang | Chemical Engineering | Best Researcher Award

Kyung Hee University, China

Dr. Tian Wang is a distinguished researcher in the field of electrochemistry and energy storage materials, holding a Ph.D. in Electronics and Information Convergence Engineering from Kyung Hee University, Korea, with prior M.Sc. and B.Sc. degrees in Materials Physics, Chemistry, and Materials Chemistry from Shaanxi University of Science and Technology, China. He has focused his research on optimizing the Zn electrode/electrolyte interface in aqueous Zn metal batteries, revealing critical effects of interfacial mass and electron transfer on Zn electrochemistry, and successfully developing long-term stable Zn anodes and high-energy quasi-solid-state anode-free Zn metal batteries for potential wearable device applications. His earlier work includes research on MoO2, MoS2, and biomass carbon as anode materials for Li/Na-ion batteries, demonstrating his broad expertise in advanced energy materials. Dr. Wang possesses strong research skills in materials synthesis, electrochemical characterization, interface engineering, nanodevice fabrication, and performance evaluation, complemented by capabilities in experimental design and problem-solving for energy storage applications. He has published 32 documents with over 1,017 citations and holds an h-index of 16, reflecting the high impact of his work in the scientific community. His awards and honors, though not detailed here, recognize his innovation and contributions to energy materials research, highlighting both national and international recognition. Throughout his professional experience, Dr. Wang has demonstrated excellence in leading research projects, collaborating with interdisciplinary teams, mentoring students, and contributing to advancements in battery technologies. In conclusion, Dr. Wang’s combination of theoretical knowledge, experimental expertise, and practical innovation positions him as a leading researcher in the field of energy storage, with significant potential to drive breakthroughs in sustainable energy solutions, wearable electronics, and next-generation battery technologies, reinforcing his role as a visionary contributor to global scientific and technological advancement.

Profiles: Scopus | ORCID

Featured Publications

Wang, T., Tang, S., Xiao, Y., Xiang, W., & Yu, J. S. (2025). Strategies of interfacial chemistry manipulated zinc deposition towards high-energy and long-cycle-life aqueous anode-free zinc metal batteries. Energy & Environmental Science.

Wang, T., Xiao, Y., Xiang, W., Tang, S., & Yu, J. S. (2025, August). Stable zinc electrode/separator interface enabled by phthalocyanine-modified separator for advanced zinc metal batteries. Small.

Wang, T., Xiao, Y., Tang, S., Xiang, W., & Yu, J. S. (2025, June). Unlocking quasi-solid-state anode-free zinc metal batteries through robust bilayer interphase engineering. Advanced Energy Materials.

Wang, T., & Yu, J. S. (2024). Stabilized lithium metal nanocomposite anode for high-performance lithium–sulfur batteries. In Engineering Materials (pp. 1–??). Springer.

Wang, T., Xu, L., Xiang, W., Tang, S., Xiao, Y., & Yu, J. S. (2024, December). Interfacial lattice strain-induced vacancy evolution facilitating highly reversible dendrite-free zinc metal anodes. Advanced Energy Materials.

Dr. Tian Wang’s work on optimizing Zn metal batteries and developing high-energy, stable anode-free systems advances sustainable energy storage technologies, enabling safer and more efficient batteries for wearable devices and grid applications, thereby contributing to global energy innovation, environmental sustainability, and next-generation electronics.

Vijyendra Kumar | Chemical Engineering | Best Researcher Award

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Dr. Vijyendra Kumar | Chemical Engineering | Best Researcher Award

Raipur Institute Of Technology Raipur, India

Dr. Vijyendra Kumar is a distinguished researcher and academic leader in Chemical and Environmental Engineering, currently serving as HOD & Associate Professor at RIT Raipur, with extensive experience in wastewater treatment, heterogeneous Fenton catalysts, process intensification, and sustainable environmental technologies. He earned his Ph.D. in Chemical Engineering from NIT Raipur in 2019, focusing on the application and reuse of heterogeneous Fenton catalysts for industrial and synthetic wastewater treatment under the guidance of Dr. P. Ghosh. Dr. Kumar also holds an M.Tech in Environmental Chemical Engineering (CPI 8.64) and a B.E. in Chemical Engineering (CPI 7.41) from RITEE, Raipur. His professional journey spans over a decade and includes roles as Postdoctoral Research Associate at IIT Guwahati, Temporary Faculty at NIT Raipur, Project Engineer at PLIPL Raipur, Senior and Junior Research Fellow at NIT Raipur, and Assistant Professor at RITEE Raipur, where he has contributed significantly to research, teaching, mentorship, and departmental leadership. Dr. Kumar’s research interests focus on advanced oxidation processes, wastewater remediation, catalyst development, green energy materials, and sustainable chemical processes, supported by strong research skills in gas chromatography, UV-Vis spectroscopy, BET analysis, CHNS analysis, TOC analysis, and photochemical reactor operations. He has authored over 50 publications with 1,451 citations and an h-index of 22, including articles in high-impact Scopus and SCI-indexed journals, and 12 book chapters with renowned publishers such as Elsevier and De Gruyter. He has actively participated in national and international conferences, faculty development programs, and professional communities, holding memberships

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

  1. Kumar, V., Mohapatra, T., Dharmadhikari, S., & Ghosh, P. (2020). A review paper on heterogeneous Fenton catalyst: Types of preparation, modification techniques, factors affecting the synthesis, characterization, and application in the … Bulletin of Chemical Reaction Engineering & Catalysis, 15(1), 1–34.

  2. Vijyendra Kumar, P. G., Pandey, N., & Dharmadhikari, S. (2019). Degradation of mixed dye via heterogeneous Fenton process: Studies of calcination, toxicity evaluation and kinetics. Water Environment Research, 91(24), 1–12.

  3. Mohapatra, T., Kumar, V., Sharma, M., & Ghosh, P. (2021). Hybrid Fenton oxidation processes with packed bed or fluidized bed reactor for the treatment of organic pollutants in wastewater: A review. Environmental Engineering Science, 38(6), 443–457.

  4. Suraj, P. G., Vijyendra Kumar, P., & Thakur, C. K. (2019). Taguchi optimization of COD removal by heterogeneous Fenton process using copper ferro spinel catalyst in a fixed bed reactor: RTD, kinetic and thermodynamic study. Journal of Environmental Chemical Engineering, 7(6), 103488.

  5. Sahu, G., & Kumar, V. (2021). The toxic effect of fluoride and arsenic on behaviour and morphology of catfish (Clarias batrachus). Nature Environment and Pollution Technology, 20(1), 371–375.