Supreeth S | Mechanical Engineering | Excellence in Research

Posted on by Young Scientists Awards

Dr. Supreeth S | Mechanical Engineering | Excellence in Research

Assistant Professor at East West Institute of Technology, India

Dr. Supreeth S is an accomplished mechanical engineer and academician currently working as an Assistant Professor in the Department of Mechanical Engineering at East West Institute of Technology, Bengaluru. He holds a Master’s degree in Machine Design and is pursuing his Ph.D. on foil bearings from Dr. AIT, Bengaluru. With over five years of research experience, his expertise lies in advanced mechanical systems, composite materials, tribology, and experimental and computational analysis. Dr. Supreeth has authored multiple Scopus/WoS-indexed research articles and co-authored engineering textbooks. He has actively participated in national and international conferences and has been honored with prestigious recognitions including the Rashtrapathi Puraskar and Young Researcher Award. His professional memberships span ISTE, IEI, ISME, IAENG, and IME (UK). Additionally, he has filed a patent for a robotic prosthetic limb, showcasing his dedication to innovation and socially impactful engineering solutions.

Profile

Scholar

🎓 Education 

Dr. Supreeth S pursued his Ph.D. in Mechanical Engineering (Foil Bearings) at M H J P N Research Centre, Dr. AIT, Bengaluru, affiliated with VTU, and is expected to complete it by January 2025. He holds a Master of Technology (M.Tech.) in Machine Design from Dr. Ambedkar Institute of Technology, Bengaluru, graduating in 2018 with an outstanding CGPA of 9.28. His Bachelor of Engineering (B.E.) in Mechanical Engineering was completed at Jnana Vikas Institute of Technology, Ramanagara, He undertook major academic projects at National Aerospace Laboratories (NAL), Bengaluru, including structural analysis of aircraft tail components and virtual prototyping of flight control systems for light transport aircraft. He is well-versed in technical tools like AutoCAD, SolidWorks, ANSYS, and Hypermesh, and has training in DTP and DCA. His academic journey reflects a strong foundation in design, analysis, and aerospace-oriented mechanical engineering.

💼 Experience 

Dr. Supreeth S currently serves as an Assistant Professor at East West Institute of Technology, Bengaluru, in the Department of Mechanical Engineering. He has over five years of dedicated research experience, primarily gained at Dr. AIT, Bengaluru, where he worked as a Project Assistant under the KSTePS/VGST research grant. His research exposure includes biodiesel testing, twin-cylinder engine performance, ball milling, composite development, brush seals, and thrust foil bearings. He completed a six-month internship at Dhio Research and Engineering Pvt. Ltd., Bengaluru, enhancing his practical knowledge in mechanical R&D. His teaching is complemented by strong research output and contributions to technical education through books, patent filings, and conference presentations. He has delivered talks and participated in FDPs, workshops, and national seminars. His dynamic career blends academic instruction, innovative research, and real-world engineering practice, making him an asset to both students and the broader scientific community.

🏆 Awards and Honors 

Dr. Supreeth S has received several prestigious awards and honors throughout his academic and professional career. He was conferred the Rashtrapathi Puraskar (President’s Award) by the President of India in 2010 for excellence in scouting. He ranked first and was awarded the Gold Medal in his M.Tech. batch (2016–18). He was a consistent topper during his B.E., securing top ranks across semesters. His research has earned him the Best Paper Award at SME 2021 and the Best Researcher Award by CPACE in 2021. He received the Young Researcher Award from SRA Global Awards in 2024 and the Ravikiran Bhodhaka Puraskar in 2025 for outstanding contributions in teaching and research. Additionally, he has secured fellowships and scholarships from TEQIP and Gubbi Thotadappa Charities. He serves as a reviewer for multiple Scopus-indexed journals, including Tribology in Industry and Applied Science and Engineering Progress, reflecting his research credibility and scholarly influence.

🔬 Research Focus 

Dr. Supreeth S’s research is centered on the design, development, and performance optimization of foil thrust bearings, with a broader interest in tribology, composite materials, and energy-efficient systems. His work includes both experimental and computational studies on gas-lubricated foil bearings with varying configurations to improve load capacity, thermal stability, and vibration response. He also explores hybrid composites using agricultural waste like rice husk and chicken feathers combined with advanced fillers such as aluminum nitride to enhance thermal and mechanical behavior. His interdisciplinary approach integrates CFD simulations, ANSYS-based modeling, and real-world testing. He has published extensively in Scopus/WoS-indexed journals (Q2 to Q4) and regularly presents at international mechanical engineering conferences. Additionally, his patent on a neural-interface-based robotic prosthetic limb highlights his focus on biomedical applications. His long-term goal is to develop sustainable, cost-effective, and intelligent mechanical systems for aerospace, energy, and healthcare industries.

 Conclusion

Supreeth S stands out as a passionate and accomplished academic with a robust portfolio of research, innovation, and teaching. His scholarly publications, engineering patents, and accolades all align with the high standards expected of a recipient of the Excellence in Research Award. With continued focus on translational research and global engagement, Dr. Supreeth is well-positioned to be a valuable asset to the engineering research community, making him highly deserving of this recognition.

📝Publications 

Title: Foil stiffness optimization of a gas lubricated thrust foil bearing in enhancing load carrying capability
Year: 2022
Authors: S. Supreeth, R.N. Ravikumar, T.N. Raju, K. Dharshan

Title: Microstructure, tensile and impact behaviour of Si₃N₄ particles reinforced Al2024 matrix composites
Year: 2022
Authors: K. Dharshan, T.N. Raju, M. Nagaral, V. Bharath, V. Auradi, P. Shantharaj, et al.

Title: A review on performance characteristics of an air foil thrust bearing
Year: 2022
Authors: S. Shivakumar, T. NagaRaju, R.N. Ravikumar, M.C. Rudraiah

Title: Experimental and Computational Analysis of Thermal Characteristics of Polymer Resin Reinforced with Rice Husk and Aluminium Nitride Filler Composites
Year: 2023
Authors: J. Balaji, M.M. Nataraja, K. Sadashiva, S. Supreeth

Title: Parametric Studies on Performance of Oil-Free Thrust Foil Bearings at Lower Speeds
Year: 2023
Authors: S. Supreeth, T.N. Raju, R.N. Ravikumar, C.R. Mahesha

Title: Experimental and CFD Analysis of a Gas-Lubricated Foil Thrust Bearing for Various Foil Configurations
Year: 2023
Authors: R.N. Ravikumar, K.J. Rathanraj, V. Arun Kumar, S. Supreeth

Title: Investigative studies on performance characteristics of aerodynamic foil thrust bearings with various foil configurations
Year: 2024
Authors: S. Supreeth, T.N. Raju, R.N. Ravikumar

Title: Mechanical and Vibrational Analysis of Chicken Feather Hybrid Composites
Year: 2025
Authors: C. Ramanathan, S. Shivakumar, M.B. Vanarotti, P. Siddappa

Title: 2000 Kannada Gaade Maatugalu
Year: 2025
Authors: D. Supreeth S

Title: Preliminary Studies on Gas Foil Thrust Bearings with Stepped Foils
Year: 2024
Authors: S. Shivakumar, T. NagaRaju, R.N. Ravikumar

Title: Intelligent Robotic Prosthetic Limb with Neural Interface for Natural Movements
Year: 2024
Authors: S. Supreeth (Patent: IN Patent App. 202341087178)

Title: Vibration Analysis for Mechanical Engineering
Year: 2024
Authors: R.K. Sanjay Soni, Siddhartha Bhowmick, Supreeth S, N. Nandakumar

Title: Investigation of Physical and Mechanical Properties of Hybrid Filler Composites with Rice Husk and Aluminium Nitride
Year: 2023
Authors: S.K. Balaji J, M.M. Nataraja, Supreeth S

Daozhi SHEN | Mechanical Engineering | Young Scientist Award

Posted on by Young Scientists Awards

Assoc. Prof. Dr. Daozhi SHEN | Mechanical Engineering | Young Scientist Award

Associate Professor | Shanghai Jiao Tong University, China

Daozhi Shen is an Associate Professor at the School of Mechanical Engineering, Shanghai Jiao Tong University. His research spans photonic materials, nanotechnology, and advanced manufacturing, with a strong interdisciplinary focus. He earned his Ph.D. in Mechanical Engineering from Tsinghua University and completed postdoctoral work at the University of Waterloo, contributing significantly to quantum and materials science. Shen has delivered keynote talks at global conferences, published in high-impact journals, and holds multiple patents in optoelectronics and material interfaces. His work has broad applications in photodetectors, nanomaterials, and sustainable technologies. He serves as a reviewer for prestigious journals and is active in international academic communities. Passionate about science communication and collaboration, he also contributes to organizing international conferences. With deep expertise and innovation, he stands at the forefront of engineering research and education.

Profile

Orcid

Scholar

🎓 Education

Daozhi Shen earned his Ph.D. in Mechanical Engineering from Tsinghua University (2013–2019), where he focused on advanced materials and micro/nano fabrication. He completed his undergraduate studies with a B.A.S. in Materials Science and Engineering from Huazhong University of Science and Technology (2009–2013). Throughout his academic training, he developed a strong foundation in materials behavior, manufacturing processes, and nanoscience applications. His doctoral research laid the groundwork for innovations in van der Waals heterostructures and device integration. Shen’s educational trajectory is marked by rigorous training, deep technical knowledge, and interdisciplinary exposure, equipping him to tackle complex engineering problems at the intersection of materials and quantum systems.

💼 Experience

Dr. Daozhi Shen is currently an Associate Professor at Shanghai Jiao Tong University’s School of Mechanical Engineering (2022–present) . Prior to this, he served as a Postdoctoral Fellow at the University of Waterloo’s Institute for Quantum Computing and the Centre for Advanced Materials Joining (2019–2022) . His experience bridges quantum systems, nanotechnology, and materials engineering. At Waterloo, he collaborated on cutting-edge research in optoelectronic device fabrication and novel joining techniques. In addition to research, Shen actively engages in academic service, including organizing international webinars and reviewing for prestigious journals. He frequently speaks at international conferences and has developed key collaborations with researchers worldwide. His experience reflects a balance of scientific rigor, teaching excellence, and global engagement .

🏆 Awards and Honors

Dr. Shen has delivered multiple keynote speeches at leading international forums, including the Vebleo Webinar on Science, Engineering and Technology (2021) and the International Webinar on Materials Science Engineering. He holds multiple patents, including one US patent on broadband van der Waals photodetectors and two Chinese patents on moisture power generators and chip mounting methods. He was invited to present at prestigious events like the Canadian Semiconductor Science Conference (2017) and IIW Annual Assembly (2018). His research achievements have earned him invitations to serve on organizing committees for high-profile conferences and webinars. As a peer reviewer for journals such as Nature Water, Advanced Materials, and Nature Communications, Shen’s expertise is widely recognized . These honors underscore his innovation, technical contribution, and growing impact in global engineering research.

🔬 Research Focus

Dr. Daozhi Shen’s research focuses on nanomaterials, photodetectors, and advanced materials joining technologies. He investigates van der Waals heterostructures, designing broadband photodetectors responsive across UV to IR spectra . His work blends quantum computing principles with mechanical engineering, enabling novel device applications. Shen is also deeply involved in moisture-powered generators, chip packaging, and sustainable fabrication processes. His multidisciplinary work integrates chemistry, physics, and materials science to tackle frontier challenges in nanoengineering and optoelectronics. He emphasizes experimental techniques, device fabrication, and materials characterization, driving innovation from lab-scale to application. Shen’s research has practical implications in underwater electronics, flexible devices, and green energy solutions, aiming to revolutionize both industry and consumer technologies.

 Conclusion

Dr. Daozhi Shen is a highly promising and accomplished early-career researcher with a strong record in materials and mechanical engineering. His innovative contributions, especially in next-generation energy devices and nano-materials, align well with the mission of the Young Scientist Award. With continued development in leadership roles, translational research, and broader collaboration, Dr. Shen is not only suitable but a highly competitive candidate for this prestigious recognition.

Publication

 1. Interface engineering for enhanced memristive devices and neuromorphic computing applications

  • Year: 2025

  • Authors: Ming Xiao, Daozhi Shen, Jijie Huang

  • DOI: 10.1177/09506608251318108

  • Journal: International Materials Reviews

 

 2. Ionic Hydrogel‐Based Moisture Electric Generators for Underwater Electronics

  • Year: 2024 (November)

  • Authors: Daozhi Shen, Fangzhou Li, Jian Zhao, Rui Wang, Bin Li, Zechao Han, Linglan Guo, Peicheng Han, Dongqi Yang, Hyun Ho Kim, et al.

  • DOI: 10.1002/advs.202408954

  • Journal: Advanced Science

 

 3. Water-Triboelectrification-Complemented Moisture Electric Generator

  • Year: 2024 (Nov 5)

  • Authors: Fangzhou Li, Jian Zhao, Bin Li, Zechao Han, Linglan Guo, Peicheng Han, Hyun Ho Kim, Yanjie Su, Li-Min Zhu, Daozhi Shen

  • DOI: 10.1021/acsnano.4c09581

  • Journal: ACS Nano

 

 4. Nonvolatile Reconfigurable Logic Device Based on Photoinduced Interfacial Charge Trapping in van der Waals Gap

  • Year: 2024 (May 1)

  • Authors: Sun Woo Kim, Juhyung Seo, Subin Lee, Daozhi Shen, Youngjin Kim, Hyun Ho Choi, Hocheon Yoo, Hyun Ho Kim

  • DOI: 10.1021/acsami.4c01627

  • Journal: ACS Applied Materials & Interfaces

 

 5. Gate-Tunable Multiband van der Waals Photodetector and Polarization Sensor

  • Year: 2024 (Apr 30)

  • Authors: Daozhi Shen, HeeBong Yang, Tarun Patel, Daniel A. Rhodes, Thomas Timusk, Y. Norman Zhou, Na Young Kim, Adam W. Tsen

  • DOI: 10.1021/acsnano.4c00181

  • Journal: ACS Nano

 

 6. Laser processing for electricity generators: Physics, methods and applications

 

 7. Flexible Copper-Based Thermistors Fabricated by Laser Direct Writing for Low-Temperature Sensing

  • Year: 2024 (Feb 28)

  • Authors: Zilong Peng, Wei Guo, Tong Liu, Xuewei Wang, Daozhi Shen, Ying Zhu, Xingwen Zhou, Jianfeng Yan, Hongqiang Zhang

  • DOI: 10.1021/acsami.3c15995

  • Journal: ACS Applied Materials & Interfaces

 

 8. Multifunctional van der Waals heterostructures enabled by femtosecond laser-controlled band alignment engineering

  • Year: 2023 (Aug)

  • Authors: Jinpeng Huo, Guisheng Zou, Yu Xiao, Tianming Sun, Bin Feng, Daozhi Shen, Chengjie Du, Jin Peng, Luchan Lin, Lei Liu

  • DOI: 10.1016/j.nanoen.2023.108548

  • Journal: Nano Energy

 

 9. Water‐Enabled Electricity Generation: A Perspective

  • Year: 2022 (Apr)

  • Authors: Xiaoye Zhao, Daozhi Shen, Walter W. Duley, Caiwang Tan, Y. Norman Zhou

  • DOI: 10.1002/aesr.202100196

  • Journal: Advanced Energy and Sustainability Research

 

 10. High-Performance Mid-IR to Deep-UV van der Waals Photodetectors Capable of Local Spectroscopy at Room Temperature

  • Year: 2022 (Apr 27)

  • Authors: Daozhi Shen, HeeBong Yang, Christian Spudat, Tarun Patel, Shazhou Zhong, Fangchu Chen, Jian Yan, Xuan Luo, Meixin Cheng, Germán Sciaini, et al.

  • DOI: 10.1021/acs.nanolett.2c00741

  • Journal: Nano Letters

 

Syed Abdul Moiz Hashmi | Chemical Engineering | Best Researcher Award

Posted on by Young Scientists Awards

Mr. Syed Abdul Moiz Hashmi | Chemical Engineering | Best Researcher Award

Universiti Teknologi Petronas, Malaysia

Syed Abdul Moiz Hashmi is a research assistant and academic with a strong focus on carbon capture and conversion technologies. With a background in Chemical Engineering, his work centers on designing advanced porous adsorbents and catalysts, particularly for Direct Air Capture (DAC) and CO₂ utilization. His approach integrates material synthesis, detailed characterization, and process simulation to develop scalable solutions for real-world environmental challenges. Currently pursuing his M.Sc. in Chemical Engineering at Universiti Teknologi Petronas, he aspires to continue into a Ph.D. program. Syed is a published researcher with multiple Q1/Q3 journal articles and conference proceedings, and he collaborates internationally on projects related to chemical process optimization, renewable energy, and membrane design. With teaching and laboratory engineering experience, Syed combines practical instruction with cutting-edge research. Fluent in English and Mandarin, and skilled in Aspen, MATLAB, ChemDraw, and Material Studio, he is driven to create sustainable impact through scientific innovation.

Profile

Scholar

🎓 Education

Syed Abdul Moiz Hashmi holds a B.Sc. (Dean’s List) in Chemical Engineering from the University of Wah (2016–2020), where he developed an integrated gasification system with post-combustion carbon capture using Aspen Plus and ANSYS. He is currently pursuing an M.Sc. in Chemical Engineering (2023–2025) at Universiti Teknologi Petronas, researching “Amine Grafted Hierarchical Zeolites for Direct Air Capture.” His work focuses on porous material synthesis, breakthrough adsorption experiments, and process simulations for CO₂ capture. Key techniques used include hydrothermal synthesis, IAST evaluations, and advanced characterization such as BET, XRD, TGA, FTIR, and NMR. His research has led to improved CO₂ selectivity, adsorption capacity (1.74 mmol/g at 400 ppm), and material stability under dry, low-pressure environments. Moiz is technically proficient in simulation software such as Aspen HYSYS, Aspen Plus, and ANSYS, and has been trained in international workshops and certified in advanced AspenTech modules and composite material development.

🧪 Experience

Syed has diverse academic and industrial experience. He is currently a Graduate Teaching Assistant at Universiti Teknologi Petronas, lecturing in thermodynamics, heat transfer, and chemistry, and conducting lab sessions with heat exchangers. Previously, he served as a Lab Engineer (2021–2022) at the University of Wah, where he led experiments in fluid dynamics and trained students on thermodynamic systems and reactors. He worked as a Design Engineer at Phitech Solutions (2020–2021), solving industrial chemical problems using Aspen HYSYS and ANSYS. During internships at Pakistan Ordnance Factories and Fauji Cement in 2019, he gained hands-on experience with explosives analysis and cement plant process optimization. His roles consistently blend simulation, material design, and practical implementation, and he has contributed to international research collaborations with universities in Turkey and the Philippines. With strong computational and experimental skills, Syed bridges academic theory with industrial application, advancing sustainable and innovative solutions in chemical engineering.

🏅 Awards & Honors

Syed Abdul Moiz Hashmi has earned several academic and professional accolades. He received the Postgraduate Publication Recognition Award (2024) from Universiti Teknologi Petronas for his outstanding research outputs. In 2025, he completed a specialized training in Front End Engineering Design using AspenTech, furthering his expertise in process simulations. He was listed on the Dean’s List (2016) during his undergraduate studies at the University of Wah. Syed has also completed technical boot camps on Aspen HYSYS, Petroleum Assays, and Composite Material Development. His consistent participation in academic workshops, such as those on composite processing and membrane design, showcases his proactive engagement in skill enhancement. With multiple publications in high-impact journals (Q1/Q3), accepted book chapters, and conference presentations, his academic performance and technical competencies are widely recognized. These honors underscore his capability, dedication, and leadership in research focused on CO₂ capture and sustainable chemical process design.

🔬 Research Focus

Syed’s research is centered on advanced materials for carbon capture, specifically adsorbents and catalysts for Direct Air Capture (DAC) and post-combustion CO₂ utilization. He engineers hierarchical zeolites and functionalized porous materials using hydrothermal and templating methods, optimizing them for low-pressure CO₂ adsorption. His expertise includes adsorption kinetics, amine grafting, and material characterization (BET, SEM, XRD, TGA, FTIR, NMR). He conducts breakthrough experiments and IAST evaluations to analyze gas selectivity and diffusion mechanisms. His research extends to simulation and energy optimization using Aspen HYSYS and MATLAB. Key focus areas include CO₂/CH₄ separation, membrane-integrated systems, metal-organic frameworks, and green solvents. Moiz contributes to international projects on DAC plant design, bio-refineries, and process recovery from sour water treatment. His goal is to develop scalable, cost-effective carbon mitigation technologies, combining theoretical modeling with practical feasibility. With over 10 published works, his research significantly advances sustainable technologies in chemical and environmental engineering.

 Conclusion

Syed Abdul Moiz Hashmi is a highly suitable candidate for the Best Researcher Award. His research outputs, practical engineering skills, and international collaborative work in the field of sustainable chemical engineering position him as a rising star in climate-focused research. With continued mentorship and strategic expansion of his scholarly influence, he is well on track to becoming a leading figure in carbon capture science.

Publication

  1. Title: Advances in H₂-selective metallic membranes for pre-combustion CO₂ capture: A critical review
    Year: 2024
    Authors: S.A.M. Hashmi, C.Y. Chuah, E. Yang, W.C. Poon

  2. Title: A novel potassium chloride based natural deep eutectic solvent: in-house synthesis and characterization
    Year: 2023
    Authors: M.H. Rasool, M. Ahmad, S.A.M. Hashmi

  3. Title: Applicability of adsorbents in direct air capture (DAC): Recent progress and future perspectives
    Year: 2025
    Authors: C.Y. Chuah, Y.L. Ho, A.M.H. Syed, K.G.K. Thivyalakshmi, E. Yang, K. Johari, …

  4. Title: Enhanced CO₂ capture performance of mesoporous Ca-A zeolite functionalized with amines for post-combustion applications
    Year: 2024
    Authors: S.A.M. Hashmi, M.H. Rasool, S. Ahmad

  5. Title: Comparative and economic analysis of conventional and extractive distillation to separate a mixture of heptane–toluene using Aspen Hysys
    Year: 2021
    Authors: S.A.M. Hashmi

  6. Title: Enhanced CO₂ adsorption kinetics with hierarchical zeolite 5A
    Year: 2025
    Authors: S.A.M. Hashmi, N.G. Xiuxin, C.C. Yang, J. Khairiraihana, P.W. Ching

  7. Title: Activated Carbons for Direct Air Capture: Adsorption Mechanisms
    Year: 2025
    Authors: S.A.M. Hashmi, M.H. Rasool, W. Husain, H. Moiz

  8. Title: Optimizing heat recovery in sour water treatment process: A comparative study using Aspen Hysys
    Year: 2023
    Authors: S.A.M. Hashmi, S. Ahmad

  9. Title: Design and modeling of a carbon capturing membrane for integrated gasification combined cycle power plant
    Year: Not specified (System 4, 5 – likely internal or conference proceeding)
    Authors: S.A.M. Hashmi

Xueqing Xu | Materials Science | Best Researcher Award

Posted on by Young Scientists Awards

Assoc. Prof. Dr. Xueqing Xu | Materials Science | Best Researcher Award

Materials Science |  associate professor at Northwest Normal University , China

Xueqing Xu is a researcher and lecturer at the School of Chemistry and Chemical Engineering, Northwest Normal University. She completed her Ph.D. at Harbin Institute of Technology in 2021, where she gained extensive knowledge in the field of chemistry and material science. Xu’s primary focus is the design of multifunctional MOF (Metal-Organic Framework)-based nano/micromaterials with a specific emphasis on their applications in electromagnetic wave absorption/shielding and photocatalysis. These innovative materials have significant potential in various industries, including environmental protection and energy conservation. As a dedicated scholar, Xu continues to contribute to the scientific community through her ongoing research and publications in prestigious journals. Her work has helped pave the way for more sustainable and efficient solutions in the realm of material science.

Publication Profile

Scopus

Educational Background 🎓📚

Xueqing Xu earned her Ph.D. in Chemistry from Harbin Institute of Technology in 2021. During her doctoral studies, she focused on the development and applications of Metal-Organic Frameworks (MOFs) for a variety of uses, including electromagnetic wave absorption and photocatalysis. Prior to her Ph.D., she completed a bachelor’s and master’s degree in Chemistry, gaining a strong foundation in material science. Her education has provided her with comprehensive knowledge in chemical engineering, materials chemistry, and nanotechnology, which has greatly contributed to her current research trajectory. At present, she is a lecturer at Northwest Normal University, where she imparts her expertise to undergraduate and graduate students while continuing her research on advanced functional materials.

 Experience 🔬📖

After completing her Ph.D. at Harbin Institute of Technology, Xueqing Xu took on the role of lecturer at the School of Chemistry and Chemical Engineering, Northwest Normal University. As a lecturer, Xu combines her research pursuits with teaching responsibilities, fostering a dynamic learning environment for students. Her research experience includes investigating the synthesis and application of MOF-based nano/micromaterials, with a particular focus on their electromagnetic wave absorption and photocatalytic properties. She has collaborated with experts in her field to further her understanding of materials chemistry. Xu’s professional experience is also marked by her active participation in scientific conferences, where she shares her research findings. Her career reflects a strong commitment to advancing material science and making practical contributions to sustainability and environmental science.

Honors & Awards 🏆🎓

Throughout her academic career, Xueqing Xu has earned several honors for her dedication to research and innovation in the field of chemistry. In addition to receiving her Ph.D. from Harbin Institute of Technology in 2021, she has published several influential papers in peer-reviewed journals, earning recognition within the scientific community. While she is still early in her academic career, her research in electromagnetic wave absorption and photocatalysis has already shown promise and led to collaborations with top-tier institutions. Xu’s groundbreaking work with multifunctional MOF-based nano/micromaterials has the potential to revolutionize various sectors, including environmental and energy industries. Her contributions to material science have set her on a trajectory for continued recognition, including future awards in materials research, environmental science, and nanotechnology.

Research Interests 🔍📊

Xueqing Xu’s research interests revolve around the design and application of multifunctional Metal-Organic Framework (MOF)-based nano/micromaterials. Specifically, her work focuses on developing materials for electromagnetic wave absorption and shielding, with potential applications in communications and environmental protection. Additionally, Xu is exploring the use of these materials in photocatalysis, aiming to address critical challenges in environmental remediation and energy conservation. Her research aims to design highly efficient, sustainable, and cost-effective materials for these applications. Xu’s ongoing work emphasizes the importance of functional material design for practical solutions in industrial settings. By understanding the interaction between electromagnetic waves and materials, her research could pave the way for better technologies in electromagnetic compatibility and pollution control. Her contributions are important not only to theoretical chemistry but also to the real-world applications of advanced materials.

Publications📚

Title: Boosting the photocatalytic benzylamine oxidation and Rhodamine B degradation using Z-scheme heterojunction of NiFe2O4/rGO/Bi2WO6

Authors: H. Xi, Hui; H. Wang, Hui; D. Liu, Dan; Z. Yang, Zhiwang; Z. Lei, Ziqiang

Citations: 0

Year: 2025

Title: Fabrication of Z-scheme heterojunction of UCN/BWO for selective photocatalytic benzylamine oxidation

Authors: H. Xi, Hui; X. Xu, Xueqing; Q. Yang, Qian; Z. Yang, Zhiwang; Z. Lei, Ziqiang

Citations: 1

Year: 2024

Title: Synthesis of Zn0.2Cd0.8S/MoS2/rGO photocatalyst for efficient solar-driven selective organic conversion

Authors: H. Xi, Hui; B. Lv, Bolin; Q. Yang, Qian; Z. Yang, Zhiwang; Z. Lei, Ziqiang

Citations: 1

Year: 2024

Conclusion :

Dr. Xueqing Xu’s exceptional contributions to the development of multifunctional materials for electromagnetic wave absorption and photocatalysis, her academic excellence, and her passion for research and teaching position her as a highly deserving nominee for the Best Researcher Award. Her work holds significant potential for advancing both academic knowledge and practical applications, particularly in energy and environmental fields, making her an outstanding choice for this prestigious recognition.