Yeshui Zhang | Chemical Engineering | Best Researcher Award

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Dr. Yeshui Zhang | Chemical Engineering | Best Researcher Award

University of Aberdeen, United Kingdom

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Yeshui Zhang began her academic journey with a BSc in Environmental Management from the University of Birmingham, where she established a strong foundation for her multidisciplinary approach to energy and environmental engineering. She then pursued an MSc in Environmental & Energy Engineering at the University of Sheffield, working under the guidance of Prof. Agba Salman. Her academic path culminated in a PhD in Chemical & Process Engineering at the University of Leeds (2014–2017), where her thesis focused on hydrogen and carbon nanotube materials derived from the pyrolysis-catalysis of waste, supervised by Prof. Paul Williams and Dr. Chunfei Wu.

💼 Professional Endeavors

Dr. Zhang currently serves as a Lecturer in Chemical Engineering at the University of Aberdeen, a position she has held since December 2021. She contributes to both research and teaching within the School of Engineering. Prior to this, she held several research-intensive roles at University College London (UCL), including a prestigious Faraday Institution Research Fellowship (2019–2021) on the NEXTRODE project, which aimed to enhance operando metrology in Li-ion battery electrode manufacturing. From 2018 to 2019, she worked as a Postdoctoral Research Associate, developing quartz crystal microbalance techniques for high-temperature applications—an initiative funded by the Qatar National Research Fund. Dr. Zhang also provided consultancy to Alchemy TT Corporation in the U.S., focusing on carbon nanomaterials from waste plastics, and previously served as Overseas Outreach Manager for Nangyang Weiter Chemical in China.

🔬 Research Focus and Contributions

Dr. Zhang’s research lies at the intersection of sustainable energy, waste valorization, and advanced materials. Her areas of expertise include energy storage materials, lithium-ion battery manufacturing, hydrogen production, plastic waste pyrolysis-catalysis, and the synthesis of carbon nanotubes. She is pioneering new approaches in in-situ acoustic diagnostics and high-temperature quartz crystal microbalance (QCM) systems, advancing real-time analysis in energy materials research. Her work is firmly rooted in circular economy principles, particularly with respect to converting plastic waste into valuable energy resources.

🌱 Impact and Influence

Dr. Zhang’s work is making a significant impact on green technology development and sustainability. She offers scalable, practical solutions for transforming plastic waste into high-value materials such as hydrogen and carbon nanostructures. Her role in the NEXTRODE project is helping to reshape Li-ion battery manufacturing through improved metrological precision and efficiency, contributing meaningfully to the global transition toward low-carbon energy systems.

📈 Academic Citations and Recognition

While specific citation metrics are not provided, Dr. Zhang’s continuous involvement in high-profile research projects—such as those funded by the Faraday Institution and the Qatar National Research Fund—reflects her growing academic stature and the broad relevance of her work in chemical engineering, energy technology, and materials science.

🛠️ Technical Skills

Dr. Zhang possesses a diverse and advanced technical skill set, including expertise in pyrolysis-catalysis systems, high-temperature QCM analysis, operando measurement technologies, battery metrology, and the synthesis of nanomaterials from recycled waste. She is also developing innovative acoustic monitoring systems for in-situ diagnostics in complex energy environments.

👩‍🏫 Teaching Experience

As a Lecturer at the University of Aberdeen, Dr. Zhang is actively involved in teaching and mentoring students in chemical and process engineering. She brings her cutting-edge research into the classroom, inspiring innovation and real-world application among her students. Her interdisciplinary background allows her to teach across a range of topics, including energy systems, environmental remediation, and advanced materials.

🌍 Legacy and Future Contributions

Dr. Zhang is positioned to become a leading figure in circular energy systems and sustainable battery technology development. Her future research will continue to integrate waste management with the creation of high-performance materials, particularly in the areas of green hydrogen and carbon-negative technologies. Through her academic and industrial partnerships, she is driving innovations that align with global sustainability goals and a cleaner, more efficient energy future.

📖Notable Publications

Catalysis and absorption behaviors of the shelled-hollow CaO-MgO microspheres on product distributions and desulfurization during waste tire fast pyrolysis
Authors: Qu, B.; Zhang, Y.; Wang, T.; Li, A.; Ji, G.
Journal: Fuel
Year: 2025

Effect of reduction temperatures of Ni-modified zeolites on the product distribution, catalyst deactivation, and reaction mechanism during polypropylene pyrolysis
Authors: Qu, B.; Wang, T.; Ji, X.; Zhang, Y.; Ji, G.
Journal: Fuel
Year: 2025

Pyrolysis-catalytic gasification of plastic waste for hydrogen-rich syngas production with hybrid-functional Ni-CaO–Ca₂SiO₄ catalyst
Authors: Qin, T.; Ji, G.; Qu, B.; Derksen, J.J.; Zhang, Y.
Journal: Carbon Capture Science and Technology
Year: 2025

Ni transformation and hydrochar properties during hydrothermal carbonization of cellulose
Authors: Zhao, P.; Yu, S.; Zhang, Y.; Zhang, Y.; Zhou, H.
Journal: Fuel
Year: 2025

Pyrolysis-catalysis of waste tire to enhance the aromatics selectivity via metal-modified ZSM-5 catalysts
Authors: Qu, B.; Zhang, Y.; Wang, T.; Li, A.; Ji, G.
Journal: Process Safety and Environmental Protection
Year: 2024

Zhiqaing Yang | Thermodynamics | Best Researcher Award

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Prof. Dr. Zhiqaing Yang | Thermodynamics | Best Researcher Award

Xi’an Modern Chemistry Research Institute, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Yang’s academic journey began with a Bachelor’s degree in Chemistry and Chemical Engineering from Dalian University, where he developed a strong foundation in chemical sciences. He further pursued a Master’s degree in Applied Chemistry at MCRI, under the supervision of Prof. Lu Jian, focusing on catalysis and chemical processes related to fluorine-based compounds. Seeking to expand his expertise, he completed a Ph.D. in Power Engineering and Engineering Thermodynamics from Xi’an Jiaotong University, where he worked under Prof. Jiangtao Wu, specializing in thermodynamic properties and fluid behavior in industrial applications.

🏢 Professional Endeavors

Dr. Yang has been actively involved in research and development at MCRI, holding various positions. As an Engineer in the Department of Catalysis and Chemical Process, he focused on HFO synthesis and chemical separation techniques. Later, as an Associate Researcher, he played a crucial role in the development of thermodynamic equipment and the study of HFO properties. Expanding his research internationally, he served as a Visiting Scholar at Mines ParisTech-PSL, CTP, under the supervision of Prof. Christophe Coquelet, where he conducted experimental studies on phase equilibrium for high-temperature heat pump working fluids. Currently, as a Researcher at the State Key Laboratory of Fluorine & Nitrogen Chemicals, he leads projects focused on experimental measurement and thermodynamic predictions for insulating gases and their environmental impact.

🔬 Contributions and Research Focus

Dr. Yang’s research spans across various domains, including hydrofluoroolefin (HFO) synthesis and separation, thermodynamic property analysis, high-temperature heat pump working fluids, and environmentally friendly insulating gases. His work has significantly contributed to industrial refrigerants and insulation technologies, enhancing sustainability in chemical engineering and reducing the environmental footprint of industrial processes. His efforts in process simulation and modeling of multisystem thermodynamics during HFO preparation have improved efficiency and reliability in industrial applications.

💰 Funded Research Projects

Dr. Yang has secured multiple research grants, highlighting his leadership in high-impact projects. He is the Program Director of R&D and Application of New Environmentally Friendly Insulating Gases, funded by China Southern Power Grid Co. Ltd, with a funding of 5.5 million RMB. Additionally, he led the Technical Research on the Physical and Chemical Properties of Insulating Gases, supported by Sinochem Group Co. Ltd, with a funding of 194,000 RMB. His long-term project, Thermodynamic Properties and Process Simulation of Multisystem During Hydrofluoroolefin Preparation, received another 5.5 million RMB in funding from Sinochem Group Co. Ltd. Earlier in his career, he directed research on Thermophysical Properties of Low-GWP HFO and HFC Mixtures and Their Solubility in Lubricant, funded by the Industrial Ministry of Shaanxi Province for 200,000 RMB. He has also served as a key researcher in several national projects funded by the Industry and Ministry of Science and Technology of China.

📊 Impact and Influence

Dr. Yang’s research has had a profound impact on both academic and industrial sectors. His studies on low-GWP refrigerants and insulating gases contribute directly to global environmental efforts to reduce greenhouse gas emissions. By developing sustainable alternatives to traditional high-GWP chemicals, his work aligns with international climate policies and promotes energy-efficient chemical processes. His advancements in thermodynamic modeling and experimental research have improved industrial operations and enhanced the efficiency of chemical processes in refrigeration, insulation, and heat transfer applications.

📚 Academic Citations and Publications

Dr. Yang’s research findings have been published in renowned scientific journals and presented at leading international conferences. His work is frequently cited in chemical engineering, thermodynamics, and industrial chemistry, reinforcing his reputation as a thought leader in the field.

🛠️ Technical Skills

With extensive expertise in chemical process engineering, Dr. Yang specializes in HFO synthesis, separation techniques, and thermodynamic modeling. His skill set includes experimental measurements, phase equilibrium modeling, and high-temperature heat pump fluid analysis. He is proficient in advanced analytical techniques such as chromatography, spectroscopy, and calorimetry, which are essential for his research in chemical thermodynamics and process optimization.

🎓 Teaching and Mentorship

Dr. Yang has been actively involved in mentoring graduate students and early-career researchers, sharing his expertise in fluorine-based chemistry and thermodynamics. His collaborations with international institutions and industry partners have facilitated knowledge exchange and technological advancements, fostering the next generation of chemists and engineers.

🔮 Legacy and Future Contributions

As a pioneer in green chemistry solutions, Dr. Yang aims to continue his research in environmentally friendly gases and sustainable industrial applications. His work on thermodynamic modeling and heat transfer technologies will contribute to energy-efficient, eco-friendly industrial processes. With a passion for innovation, he remains dedicated to training future experts in chemistry and chemical engineering, ensuring that his contributions leave a lasting impact on scientific progress and environmental sustainability.

📖Notable Publications

  • Investigation of vapor liquid equilibria for HFO-1336mzz(E) + HFC-1234ze(E) binary system by a novel developed cyclic-analytical apparatus

    • Authors: Zhiqiang Yang, Yuanhao Liao, Hong Yuan, Xiaobo Tang, Christophe Coquelet, Jijun Zeng, Sheng Han, Wei Zhang, Jian Lu

    • Journal: Fluid Phase Equilibria

    • Year: 2025

  • Discovery of a novel binary azeotrope with positive synergistic insulation strength as eco-friendly SF6-alternative

    • Authors: Yuyang Yao, Zhiqiang Yang, Boya Zhang, Xingwen Li, Mai Hao, Nian Tang, Dongwei Sun, Jian Lu

    • Journal: Journal of Physics D: Applied Physics

    • Year: 2025

  • Experimental measurements and correlation of vapor–liquid equilibrium data for the difluoromethane (R32) + 1,3,3,3-tetrafluoropropene (R1234ze(E)) binary system from 254 to 348 K

    • Authors: Pierre Six, Alain Valtz, Yulong Zhou, Zhiqiang Yang, Christophe Coquelet

    • Journal: Fluid Phase Equilibria

    • Year: 2024

  • Synthesis, Characterization, and Physicochemical Properties of New [Emim][BF₃X] Complex Anion Ionic Liquids

    • Authors: Jijun, Bo Zhao, Yu An, Xiao-Bo Tang, Sheng Han, Zhi-Qiang Yang, Wei Zhang, Jian Lu

    • Journal: ACS Omega

    • Year: 2024

  • Synthesis of Perfluoro Alkyl/Alkenyl Aryl Sulfide: C−S Coupling Reaction Using Hexafluoropropylene Dimer (HFPD) as a Building Block

    • Authors: Yu An, Ji‐Jun Zeng, Xiao‐Bo Tang, Bo Zhao, Sheng Han, Zhi‐Qiang Yang, Wei Zhang, Jian Lu

    • Journal: European Journal of Organic Chemistry

    • Year: 2024

  • Isothermal Vapor–Liquid Equilibrium for the Binary System of Trans-1,3,3,3-tetrafluoropropene and 1,1,1,3,3-Pentafluoropropane

    • Authors: Nian Tang, Wenguo Gu, Dongwei Sun, Xiaobo Tang, Zhiqiang Yang, Jian Lu

    • Journal: International Journal of Thermophysics

    • Year: 2023

  • Critical properties and vapor-liquid equilibrium of two near-azeotropic mixtures containing HFOs

    • Authors: Zhiqiang Yang, Alain Valtz, Christophe Coquelet, Jiangtao Wu, Jian Lu

    • Journal: International Journal of Refrigeration

    • Year: 2022

 

Md. Khalid Hossain Shishir | Nanotechnology | Best Researcher Award -1889

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Mr. Md. Khalid Hossain Shishir | Nanotechnology | Best Researcher Award

Islamic University, Bangladesh

👨‍🎓Profiles

🎓 Early Academic Pursuits

Md. Khalid Hossain Shishir’s academic journey began with an exceptional performance in secondary and higher secondary education. He completed his Secondary School Certificate (SSC) in 2014 and Higher Secondary Certificate (HSC). These formative years laid a strong foundation in science, fostering his passion for applied chemistry and nanotechnology. Pursuing higher education at Islamic University, Kushtia, Bangladesh, he embarked on a Bachelor of Science (Engineering) in Applied Chemistry & Chemical Engineering. He displayed excellence in both theoretical and practical aspects of the discipline. He further enhanced his expertise by enrolling in a Master of Science (Engineering).

🏆 Professional Endeavors

Md. Khalid Hossain Shishir’s professional aspirations align with his strong academic background. He aims to contribute to the nanotechnology sector, focusing on its applications in biomedicine and environmental sustainability. His career objective reflects his determination to engage in multidisciplinary research, seeking innovative solutions through nanomaterials and biopolymer-based technologies. His commitment to excellence was recognized through the Dean’s Award (2024), where he was honored as the top-ranking student in the Faculty of Engineering and Technology at Islamic University, Kushtia.

🔬 Contributions and Research Focus

Shishir’s research primarily revolves around nanotechnology, biopolymers, and environmental remediation. His M.Sc. thesis, titled “Biopolymer-mediated Synthesis of Copper Oxide Nanoparticles: Antibacterial and Photocatalytic Properties”, delves into the potential of nanomaterials in antibacterial applications and photocatalytic degradation. Under the supervision of Dr. Gazi Md. Arifuzzaman Khan, his research investigates sustainable methods of nanoparticle synthesis, contributing to the advancement of green nanotechnology.

For his B.Sc. project, he worked on the “Hydrolytic Degradation of Cellulose: Viscometric Analysis”, which explored the breakdown of cellulose fibers and their impact on industrial applications. This project provided him with a strong understanding of polymer chemistry and degradation mechanisms.

🌍 Impact and Influence

Md. Khalid Hossain Shishir’s research has a far-reaching impact in multiple scientific domains:
✅ Biomedical Applications – Developing antibacterial nanoparticles that can be used in wound healing, coatings, and medical devices.
✅ Environmental Remediation – Employing nanomaterials for wastewater treatment through photocatalysis.
✅ Sustainable Chemistry – Utilizing biopolymers to create eco-friendly nanomaterials, reducing reliance on synthetic chemicals.

His work contributes significantly to the global shift toward green chemistry and sustainable engineering, addressing some of the most pressing environmental and healthcare challenges.

📚 Academic Citations and Publications

His research is expected to gain recognition in peer-reviewed journals and international conferences, adding to the body of knowledge in nanotechnology and applied chemistry. His dedication to scientific inquiry and innovation ensures that his findings will be referenced in future studies related to biopolymer-based nanomaterials.

🛠️ Technical Skills

Shishir has acquired a diverse set of technical and analytical skills, including:
✔ Nanomaterial Synthesis & Characterization (Copper Oxide Nanoparticles, Biopolymer-based Nanotechnology)
✔ Spectroscopy & Microscopy Techniques (UV-Vis, FTIR, SEM, XRD)
✔ Chemical Engineering Principles (Photocatalysis, Biopolymer Degradation)
✔ Analytical Techniques (Viscometric Analysis, Hydrolytic Degradation)
✔ Software Proficiency (ChemDraw, MATLAB, OriginPro)

🎓 Teaching and Mentorship

Beyond his research, Shishir is passionate about mentoring and teaching. He has actively engaged in:
🔹 Assisting junior students in laboratory research and analytical techniques.
🔹 Conducting academic discussions on nanomaterials and chemical engineering principles.
🔹 Providing guidance on research methodologies and scientific writing.

His ability to simplify complex scientific concepts makes him an effective mentor and educator, shaping the next generation of researchers in nanotechnology.

🚀 Legacy and Future Contributions

Looking ahead, Md. Khalid Hossain Shishir envisions a career that merges academic research with industrial innovation. His goal is to:
🔬 Advance sustainable nanotechnology by exploring novel biopolymer-based nanomaterials.
🏥 Develop biomedical applications of nanotechnology, particularly in antibacterial and drug delivery systems.
🌏 Contribute to environmental sustainability by implementing nanomaterials for wastewater treatment and pollution control.
📖 Publish high-impact research in top-tier journals to enhance global knowledge on green chemistry and nanoscience.

📖Notable Publications

Crystallographic biography on nanocrystalline phase of polymorphs titanium dioxide (TiO₂): A perspective static review

Authors: SI Sadia, MKH Shishir, S Ahmed, AR Aidid, MM Islam, MM Rana, …

Journal: South African Journal of Chemical Engineering

Year: 2024

Transmission electron microscopic and X-ray diffraction based study of crystallographic bibliography demonstrated on silver, copper and titanium nanocrystals: State of the Art

Authors: MKH Shishir, SI Sadia, S Ahmed, AR Aidid, MM Rana, MM Hasan, …

Journal: Asian Journal of Applied Chemistry Research

Year: 2024

Stoichiometry crystallographic phase analysis and crystallinity integration of silver nanoparticles: A Rietveld refinement study

Authors: MR Al-Mahmud, MKH Shishir, S Ahmed, S Tabassum, SI Sadia, …

Journal: Journal of Crystal Growth

Year: 2024

Green synthesis of crystalline silver nanoparticle by bio-mediated plant extract: A critical perspective analysis

Authors: SI Sadia, MKH Shishir, S Ahmed, MA Alam, SM Al-Reza, S Afrin, …

Journal: Nano-Structures & Nano-Objects

Year: 2024

Crystallographic phase biographs of copper nanocrystalline material: A statistical perspective review

Authors: S Ahmed, MKH Shishir, SI Sadia, SM Al-Reza, MMH Sachchu, AR Aidid, …

Journal: Nano-Structures & Nano-Objects

Year: 2024

Crystallinity integration and crystal growth behavior study of preferred oriented (111) cubic silver nanocrystal

Authors: MA Alam, SI Sadia, MKH Shishir, RK Bishwas, S Ahmed, SM Al-Reza, …

Journal: Inorganic Chemistry Communications

Year: 2025

Zhitao Wang | Materials Chemistry | Best Researcher Award

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Mr. Zhitao Wang | Materials Chemistry | Best Researcher Award

Henan Normal University, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Zhitao Wang embarked on his academic journey in material science with a strong emphasis on advanced materials and energy devices. During his Ph.D. studies at the Beijing Institute of Technology (2016–2020), under the mentorship of Prof. Chuanbao Cao, he made significant strides in developing innovative 2D materials. He pioneered a microwave-assisted synthesis method for graphene-analogous metal sulfides and oxides, laying a solid foundation for his future research endeavors. His doctoral research also focused on high-performance copper sulfide nanomaterials for magnesium secondary batteries, encompassing synthesis, characterization, and electrochemical analysis.

💼 Professional Endeavors

Since 2020, Dr. Wang has served as an associate professor at the School of Materials Science and Engineering, Henan Normal University. In this role, he has been instrumental in advancing research on new energy materials and devices, particularly focusing on battery technology. His efforts have led to the establishment of a robust research framework aimed at developing innovative materials for lithium-ion, sodium-ion, and magnesium-ion batteries.

🔬 Contributions and Research Focus

Dr. Wang’s research primarily revolves around the development of high-performance cathode and anode materials. He has contributed significantly to improving the electrochemical performance of inorganic materials by meticulously regulating their morphology and crystal structures. His team is currently focusing on creating commercial-grade sodium-ion battery cathode materials with the ultimate goal of facilitating large-scale production and application. This work aligns with global efforts to enhance energy storage systems' efficiency and sustainability.

🌟 Impact and Influence

Through his innovative work, Dr. Wang has made notable contributions to the fields of energy storage and 2D material synthesis. His research on copper sulfide nanomaterials for magnesium secondary batteries has opened new pathways for high-specific-energy storage solutions. His work on sodium-ion batteries is poised to have a substantial impact on the commercialization of sustainable energy technologies, addressing critical challenges in the renewable energy landscape.

📊 Academic Achievements and Citations

Dr. Wang’s work has been recognized within the academic community through multiple citations in prestigious journals. His studies on graphene-analogous materials and electrochemical energy storage have influenced ongoing research in materials science, positioning him as a key contributor in this field.

🛠️ Technical Skills

Dr. Wang is proficient in advanced synthesis techniques, including microwave-assisted synthesis, nanomaterial characterization, and electrochemical energy storage analysis. His expertise spans various materials, including graphene analogs, metal sulfides, and oxides, with applications in cutting-edge battery technologies.

🧑‍🏫 Teaching Experience

As an associate professor, Dr. Wang actively mentors undergraduate and graduate students, fostering the next generation of researchers in material science and engineering. His hands-on approach to teaching and research guidance has inspired many students to pursue innovative projects in new energy materials.

🏅 Legacy and Future Contributions

Dr. Wang’s legacy lies in his commitment to addressing energy storage challenges through innovative material solutions. Moving forward, his research team aims to enhance sodium-ion battery technology further, contributing to the development of scalable, eco-friendly energy systems. His vision is to position Henan Normal University as a hub for groundbreaking research in new energy materials and devices.

📖Notable Publications