Mr. Tajala Magray | Energy Storage | Best Researcher Award

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Mr. Tajala Magray | Energy Storage | Best Researcher Award

University of Mumbai, India

Author Profile

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🎓 Educational Background

Mr. Tajala Magray holds a Postgraduate degree in Physics from the Department of Physics, University of Mumbai (2019), where he specialized in Material Science, Polymer Science, Nano Science, and Nano Technology, securing a GPA of 3.0. Prior to this, he completed his Bachelor’s degree in Science (Physics, Chemistry, and Mathematics) from Sri Pratap College, Srinagar, Jammu & Kashmir (2017) with the same GPA of 3.0. His strong academic foundation has shaped his expertise in advanced physical sciences and cutting-edge nanotechnological applications.

🔬 Research Projects

During his academic journey, Mr. Magray contributed to several innovative projects. In 2018–2019, he worked under the guidance of Mr. Nitin Bijewar at the University of Mumbai on a project titled “Development of Machine Learning and High-throughput DFT Framework for the Study of Perovskite”, merging computational physics with AI technologies. Additionally, he is currently engaged in synthesizing electrode materials for energy storage devices under the mentorship of Prof. Pradip Sarwade at the Department of Physics, University of Mumbai (2022–Present). These projects reflect his strong inclination towards materials innovation and renewable energy solutions.

🧪 Technical Skills

Mr. Magray is proficient in a wide range of material characterization techniques such as XRD, SEM, TEM, TGA, DSC, BET, FTIR, AFM, XPS, and Cyclic Voltammetry (CV). His hands-on experience also includes nanomaterial synthesis techniques like sputtering, solvothermal and hydrothermal processes, as well as the sol–gel method. Additionally, he is skilled in mechanical testing, including tensile and hardness testing. His technical toolkit is complemented by a solid command of Python, advanced MS Excel, and other MS Office tools, enabling him to efficiently analyze and interpret complex datasets.

💻 Computational Proficiency

Tajala’s growing interest in computational physics is evident through his experience in Machine Learning and Density Functional Theory (DFT) calculations. His mathematical acumen, coupled with programming and software capabilities, supports his work in developing AI-driven scientific models and simulations for material behavior prediction

🏅 Certifications & Workshops

Mr. Magray has participated in several prestigious training programs and workshops. He completed a 7-day Material Characterization STUTI workshop organized by SAIF-DST-CFC, Shivaji University, Kolhapur, and took part in a 3-day Basic Training Program in Nano Science and Technology by IISc Bangalore. He has also completed semiconductor-related courses on Coursera and was a participant in the INSPIRE DST 2011 event held at Shri Mata Vaishno Devi University, Jammu. Furthermore, he attended an IARP workshop on the beneficial effects of radiation and the Indian Nuclear Energy Program, showcasing his broad scientific curiosity.

Notable Publication📝

📝 Modulating energy storage and electrocatalytic properties of molybdates through forming solid solutions

Authors: T.F. Magray (Tajala Fayaz), M.A. Wani (Mashooq Ahmad), S. Radha, P.B. Sarawade (Pradip Bhikaji)

Journal: Chemical Engineering Journal

Year: 2025

Dr. yanzhao zhang – direct seawater electrolysis- Best Researcher Award

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Dr. yanzhao zhang – direct seawater electrolysis- Best Researcher Award

The University of Queensland – Australia

Author Profile

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🎓 Education & Academic Background

Yanzhao Zhang has built a strong academic foundation in Chemical Engineering and Material Science, earning degrees from some of the most prestigious institutions. He completed his Ph.D. in Chemical Engineering from The University of Adelaide (2019-2023) under the supervision of Prof. Shi-Zhang Qiao. Prior to this, he pursued his Master of Engineering in Material Science and Engineering at Zhejiang University (2015-2018), where he was mentored by Prof. Xiwen Zhang. His academic journey began with a Bachelor of Engineering in Material Processing and Control Engineering from Wuhan University (2010-2014), where he worked closely with Dr. Yuanxiang Zhu.

🔬 Professional Experience & Research Interests

Currently, Yanzhao Zhang serves as a Postdoctoral Fellow at the School of Chemical Engineering, The University of Queensland (2023-present), where he collaborates with Dr. Zhiliang Wang and Prof. Lianzhou Wang. His research focuses on the modulation and modification of material surfaces to gain a deeper understanding of catalyst design and enhance their catalytic performances. One of his primary research areas involves the fabrication of active sites and single atoms through surface modification. He has employed various strategies, including high-active surface exposure, metal cluster/single-atom loading, surface defect construction, and functional group grafting, to enhance the photocatalytic performance of 2D materials, such as g-C₃N₄, Bi-based materials (BixMOy, BiOX), MoS₂, TiO₂, and carbon-based nanosheets. His research has been published in high-impact journals, including Advanced Materials, Angewandte Chemie International Edition, Advanced Energy Materials, Small Science, and Green Chemistry.

Another key focus of his research is the modulation of surface electron redistribution to improve photocatalytic efficiency. By introducing an asymmetric dual-atom system, he has discovered a new charge transfer mechanism. Through a combination of rigorous experiments and simulations, he has been able to analyze the detailed changes in surface electron distribution, with two new manuscripts currently in preparation. Additionally, his work involves the precise investigation of the structure-to-performance correlation in photocatalysis. In particular, he has studied the impact of carbon impurities in CO₂ photoreduction, which arise from the synthesis and use of photocatalysts. Utilizing in situ characterizations, he has proposed elimination approaches and rigorous experimental methodologies to mitigate these impurities, leading to improved photocatalytic performance. His findings have been published in ACS Energy Letters.

🏆 Awards & Recognitions

Yanzhao Zhang has received numerous prestigious awards in recognition of his outstanding research contributions. He was honored with the Dean’s Commendation for Doctoral Thesis Excellence (2023), acknowledging the high quality of his doctoral research. In the same year, he received the National Scholarship for Outstanding Self-funded International Students, a prestigious award recognizing top international scholars. In addition, he was awarded the ARC Grant Funded Short-Term Scholarship (2022) and the Australian Government Research Training Program Scholarship (2019), both of which supported his research endeavors. Earlier in his academic career, he won the Material Microstructure Competition of Zhejiang Province (2018) and multiple Academic Scholarships from Zhejiang University (2016, 2017, 2018) for his academic excellence.

🛠️ Technical Skills & Expertise

With extensive research experience, Yanzhao Zhang has developed a strong technical skill set in advanced characterization techniques, materials synthesis, and computational modeling. He is proficient in vibrational and absorption spectroscopy, including Raman spectroscopy, in situ FTIR, UV-vis, and fluorescence spectroscopy, which are essential for analyzing material properties. He is also skilled in electron microscopy techniques, such as Scanning Electron Microscopy (SEM) and Transmission Electron Microscopy (TEM), for studying the morphology and structure of nanomaterials. His expertise extends to 2D material synthesis and surface modification, particularly in the engineering of photocatalytic materials. He has hands-on experience with Density Functional Theory (DFT) simulations using VASP, which allows him to explore electronic structures and charge transfer mechanisms. His knowledge of photo/electrochemical and synchrotron characterizations further enhances his ability to investigate catalytic processes in energy conversion applications.

Moreover, he has experience in photocatalytic reactor design, which plays a crucial role in developing high-performance catalytic systems. He is also proficient in the separation and quantification of species in complex chemical systems using Gas Chromatography (GC) and Liquid Chromatography (LC), which are essential for analyzing reaction products and intermediates. Through his groundbreaking research and technical expertise, Yanzhao Zhang continues to advance the field of material science and photocatalysis, making significant contributions to energy conversion and environmental sustainability.

Notable Publications📝

Hybrid water electrolysis with integrated and cascading reactions using two-dimensional electrocatalysts

Authors: Yao, D.; Zhang, Y.; Zhang, S.; Wan, J.; Yu, H.; Jin, H.

Journal: Journal of Materials Chemistry A

Year: 2023

Reversed Electron Transfer in Dual Single Atom Catalyst for Boosted Photoreduction of CO₂

Authors: Zhang, Y.; Johannessen, B.; Zhang, P.; Gong, J.; Ran, J.; Qiao, S.-Z.

Journal: Advanced Materials

Year: 2023

Two-dimensional building blocks for photocatalytic ammonia production

Authors: Ran, J.; Xia, B.; Zhang, Y.; Qiao, S.-Z.

Journal: Journal of Materials Chemistry A

Year: 2021

Atomic-Level Reactive Sites for Semiconductor-Based Photocatalytic CO₂ Reduction

Authors: Zhang, Y.; Xia, B.; Ran, J.; Davey, K.; Qiao, S.Z.

Journal: Advanced Energy Materials

Year: 2020

In Situ Fragmented Bismuth Nanoparticles for Electrocatalytic Nitrogen Reduction

Authors: Yao, D.; Tang, C.; Li, L.; Xia, B.; Vasileff, A.; Jin, H.; Zhang, Y.; Qiao, S.-Z.

Journal: Advanced Energy Materials

Year: 2020

 

Dr. Pin-Yi Zhao | Energy Storage Materials | Young Scientist Award

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Dr. Pin-Yi Zhao | Energy Storage Materials | Young Scientist Award

Doctorate at SINOPEC (Dalian) Research Institute of Petroleum and Petrochemicals Co., Ltd., China

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🎓 Academic Achievements and Education

Pinyi Zhao earned a Ph.D. in Chemistry from the prestigious University College London (UCL) (2017–2022), where they were honored with the Dean’s Scholarship, valued at £72,770. During this time, they developed proficiency in conducting risk assessments and maintaining health and safety standards in the workplace. Their research demanded independent and collaborative problem-solving skills, which they utilized to troubleshoot complex technological challenges. Additionally, they honed their analytical capabilities by recording, analyzing, and summarizing data to prepare comprehensive weekly academic reports, both in written and verbal formats.

Prior to their Ph.D., Pinyi pursued a Master of Engineering in Chemical Technology at Tianjin University, a Project 985 institution (2014–2017). With a stellar GPA of 3.7/4.0, they were recognized with an Outstanding Graduate Thesis. Pinyi’s academic excellence earned them the China National Scholarship, a prestigious award conferred to only the top 0.2% of college-educated students in China. They were also a recipient of the Baoshun Scholarship and the Award for Commemoration of Tianjin University’s 120th Anniversary, reflecting their exceptional contributions to the university. Further, they demonstrated their technical expertise by successfully passing the foundations of the Certified Chemical Engineer examination.

Pinyi’s academic journey began with a Bachelor of Science in Applied Chemistry from Tianjin University (2010–2014), where they maintained an impressive GPA of 3.6/4.0 during their junior and senior years, securing direct admission to graduate school. Their accolades include being named an Outstanding Graduate, a Top Ten Youth in the School of Science, and a recipient of the Outstanding Student Scholarship on two occasions. Notably, Pinyi showcased leadership and innovation as the team lead for the American Mathematical Contest in Modeling, earning an Honorable Mention award.

🔬 Research and Professional Experience

Pinyi Zhao has cultivated a robust research portfolio across various esteemed institutions. As a Visiting Researcher at the UCL Institute for Materials Discovery (2021–2023), they collaborated on multidisciplinary projects aimed at developing eco-friendly electrode materials, culminating in the publication of two papers in prominent international journals.

During their tenure as a Doctoral Research Assistant at UCL Chemistry (2018–2021), Pinyi made significant contributions to advancing lithium-ion battery technologies. Their pioneering work on eco-friendly aerosol multicoated silicon anodes introduced a novel Aerosol-Assisted Chemical Deposition (AACD) method, resulting in sustainable materials for battery electrodes. They demonstrated advanced materials characterization techniques and employed machine learning to analyze data innovatively. Furthermore, they explored organic-processed AACD for multicoated composites, devising a quantifiable ‘fulfilled ratio’ to optimize materials design and algorithms to analyze cyclic-type curves. Pinyi also contributed to the development of safe and high-performance all-solid-state lithium-ion batteries, preparing materials through solid-state synthesis, performing Rietveld refinement with GSAS-II, and visualizing data with Vesta.

As a Graduate Research Assistant at Tianjin University (2014–2017), Pinyi focused on developing hard carbon anode materials for lithium/sodium-ion batteries, achieving significant improvements in capacity using polyacrylonitrile and biomass-derived microspheres and nanofibers. Earlier, as an Undergraduate Research Assistant, they participated in China’s National High Technology Research and Development Program “863”, where they evaluated needle coke-based anode materials and optimized their performance through heat-treatment experiments.

Leading a team as part of their Photonic Polymer Sensors Research project (2012–2014), Pinyi established innovative methods for the chiral recognition of amino acids using molecularly imprinted photonic polymers, utilizing advanced instrumental characterization techniques.

🏅 Awards and Honors

Pinyi Zhao’s academic journey is distinguished by numerous accolades, including the Dean’s Scholarship at UCL and the China National Scholarship, awarded to an elite 0.2% of students nationwide. They also received multiple awards at Tianjin University, such as the Outstanding Graduate Award, the Baoshun Scholarship, and recognition for Science and Technology Excellence, highlighting their consistent excellence and contributions to academic and research excellence.

🧪 Key Skills and Expertise

Pinyi has mastered advanced techniques in materials synthesis, including the innovative Aerosol-Assisted Chemical Deposition (AACD) method. Their expertise spans data analysis, utilizing machine learning for innovative solutions, and characterizing materials through electrochemical techniques. They are proficient in tools like GSAS-II and Vesta, and have demonstrated strong leadership and collaboration skills in multidisciplinary research projects.

Publications Top Noted📝

Novel MOF-derived hexagonal starfish-shaped hollow prismatic cone-loaded metal complexes for electrocatalytic water decomposition study

Authors: Zhang, T., Zhao, Y., Liu, F., … Li, P., Wang, H.

Journal: Journal of Environmental Chemical Engineering

Year: 2025

An environment-friendly method to prepare fulvic acid-based porous carbon for high energy density supercapacitors

Authors: Wang, J., Zhang, C., Chen, Z., … Zhang, J., Zhao, P.-Y.

Journal: Diamond and Related Materials

Year: 2024

Waste grape skin bio-derived carbon@NiFe2O4 for the environmental pollutants nitrobenzene detection

Authors: Zheng, M., Shi, K., Zhao, Y., … Li, P., Wang, H.

Journal: Ceramics International

Year: 2024

A simple strategy for the controllable synthesis of tin-based anode materials and their lithium storage performances

Authors: Liu, K., Guo, D., Zhao, D., … Song, Y., Sun, J.

Journal: Journal of Energy Storage

Year: 2024

Spontaneous template approach towards nitrogenous multi-shelled hollow carbon spheres with unique onion-like architecture

Authors: Song, C., Liu, K., Wang, T., … Lu, R., Zhang, S.

Journal: Materials Today Chemistry

Year: 2024