Prof. Qingjun Chen | Engineering | Best Researcher Award

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Prof. Qingjun Chen | Engineering | Best Researcher Award

Nanchang Hangkong University, China.

Qingjun Chen, PhD, is a distinguished professor and a high-end talent in scientific and technological innovation under Jiangxi Province's "Thousand Talents Plan." Recognized as a leading academic and technological figure in major disciplines, he serves as an academic leader and a young and middle-aged backbone teacher in Jiangxi Province. He has held key positions in various professional committees and serves as an expert reviewer for multiple national and provincial scientific organizations.

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Education

Qingjun Chen earned his PhD in Materials Science from Harbin Institute of Technology in 2006, solidifying his expertise in advanced materials research. In 2005, he broadened his academic exposure by conducting research at the University of Waikato, New Zealand, gaining international experience in material science innovations. Further enhancing his global academic collaborations, he served as a Visiting Scholar at North Carolina State University, USA, in 2010, where he deepened his research on material performance regulation and alloy applications.

Experience

Qingjun Chen has established himself as a leading expert in materials science, holding multiple prestigious roles in national and international scientific communities. He is a member of the Amorphous Alloys and Applications Committee under the Chinese Society of Metals and also contributes to the Railway Facilities Committee of the China Society for Corrosion and Protection. Additionally, he serves as a communication review expert for the National Natural Science Foundation of China and a letter review expert for the China Postdoctoral Science Foundation, actively shaping the direction of scientific research in the country. His expertise is widely recognized, and he has been a science and technology consultant and reviewer for multiple provincial and municipal research projects, ensuring the successful implementation of key scientific initiatives.

Research Interests

Advanced Material Organization & Performance Regulation – Investigating material structures and optimizing their properties for industrial use.

Innovative Materials Development – Designing new materials with enhanced durability and functionality.

Corrosion Protection – Developing advanced coatings and alloys to prevent material degradation.

Alloy Design & Optimization – Creating high-performance alloys for specialized applications.

National Defense Applications – Contributing to the development of materials for military and defense technologies.

Aerospace Engineering – Enhancing materials used in aircraft and space exploration for improved performance and safety.

Railway Infrastructure – Advancing material solutions to increase efficiency and longevity in railway construction and maintenance.

Awards & Recognitions

Provincial and Ministerial Science and Technology Award (Second Prize) – Ranked First

Recognized as a Young and Middle-aged Backbone Teacher in Jiangxi Province

Key contributor to Jiangxi Province's "Thousand Talents Plan"

Selected Publications

Nb-induced lattice changes to enhance corrosion resistance of Al₀.₅Ti₃Zr₀.₅NbₓMo₀.₂ high-entropy alloys
Q. Chen, X. CuiNature Communications, 2025

Amorphous-nanocrystalline dual-phase structured Fe₇₈Si₁₃B₉ alloy ribbons and their efficiency for degradation of direct yellow dye
Y. Zhao, Q. Chen, L. Ji, K. Wang, G. HuangReaction Kinetics, Mechanisms and Catalysis, 2024
1 Citation (Open Access)

Strengthening mechanism of electrocatalytic properties of high activity Fe-based amorphous alloys by low escape work nanocrystals
Y. Zhao, Q. Chen, L. Ji, K. Wang, G. HuangJournal of Materials Research and Technology, 2024
2 Citations

Microstructure and Internal Friction Behavior of Laser 3D Printed Fe-Based Amorphous Composites
S. Huang, Q. Chen, L. Ji, K. Wang, G. HuangActa Metallurgica Sinica (English Letters), 2024
3 Citations

BCC/B2 structure and dislocation strengthening behavior in high Ti content TiAlVCrNb high-entropy alloys
T. Xu, Q. Chen, L. Ji, K. Wang, H. LiuJournal of Alloys and Compounds, 2023
35 Citations

 

 

Dr. James C. L. Chow | Quantum Computing | Best Researcher Award

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Dr. James C. L. Chow | Quantum Computing | Best Researcher Award

Princess Margaret Cancer Centre, Canada.

Dr. James Chun Lam Chow, PhD, FCCPM, FInstP, FIET, SMIEEE, PPhys, CPhys, CSci, is a distinguished medical physicist specializing in radiation oncology and artificial intelligence applications in healthcare. He is currently an Associate Professor in Material Science and Engineering at the University of Toronto and a Clinician Investigator at the Princess Margaret Cancer Research Institute. With over two decades of experience in medical physics, his research focuses on AI-driven healthcare solutions, radiation therapy optimization, and Monte Carlo simulations for cancer treatment.

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Education🎓

Dr. James C. L. Chow earned his PhD in Physics from the University of Hong Kong in 1995 under the supervision of Prof. Peter Fung, following a BSc in Applied Physics (First Class Honours) from City University of Hong Kong in 1992. He was awarded a Croucher Postdoctoral Fellowship at the University of Cambridge (1995-1997), then continued his research as a Postdoctoral Researcher at the University of Toronto (1997-1998) and later as a Postdoctoral Fellow at McMaster University (1998-2000). Transitioning into medical physics, he completed his Medical Physics Residency at the London Regional Cancer Centre (2000-2002), gaining clinical expertise in radiation therapy and medical imaging.

Professional Experience🌟

Dr. James C. L. Chow is an accomplished medical physicist and academic with extensive experience in radiation oncology and materials science. He is currently an Associate Professor in the Department of Materials Science and Engineering at the University of Toronto (2025–Present) and has been an Associate Professor in the Department of Radiation Oncology at the University of Toronto since 2019. In addition to his academic roles, he serves as a Medical Physicist at Princess Margaret Cancer Centre (2005–Present), where he also leads as the Physics On-Call Lead (2010–Present). His research contributions are further reflected in his role as a Clinician Investigator at the Princess Margaret Cancer Research Institute (2023–Present) and his affiliation with the Acceleration Consortium at the University of Toronto (2024–Present).

Previously, Dr. Chow held multiple key positions, including Assistant Professor in Radiation Oncology at the University of Toronto (2006–2019) and Medical Physics Site Lead for Skin Cancer at Princess Margaret Cancer Centre (2010–2015). Before joining Princess Margaret, he worked as a Medical Physicist and Deputy Radiation Safety Officer at Grand River Regional Cancer Centre (2002–2005). He has also contributed to academia as an Adjunct Professor at Ryerson University and the University of Waterloo (2005–2010). His career reflects a deep commitment to advancing medical physics, cancer treatment, and interdisciplinary research in materials science and engineering.

Research Interests📚

Dr. Chow’s research focuses on:

Radiation Oncology & Medical Physics: Treatment optimization using Monte Carlo simulations

Artificial Intelligence in Healthcare: AI-driven diagnostic tools and chatbot applications in oncology

Nanotechnology in Radiation Therapy: Gold nanoparticle-enhanced radiotherapy

Clinical Data Analysis: Predictive modeling for cancer treatment outcomes

Awards & Recognitions🏆

2024 Outstanding Reviewer, Nuclear Engineering and Technology Journal

2024 Most-Viewed Article, JMIR Cancer

2024 Outstanding Author of the Year, AIMS Biophysics Journal

2019 Top Peer Reviewer, Web of Science Group

2012 Outstanding Reviewer, Medical Physics Journal

2010 SciNet Local Resource Allocation Award (1 million supercomputing hours for Monte Carlo simulations)

Selected Publications📖

Gold nanoparticles for drug delivery and cancer therapy
S Siddique, JCL Chow
Applied Sciences 10(11), 3824 (2020) – Cited: 382

Chatbot for health care and oncology applications using artificial intelligence and machine learning: Systematic review
L Xu, L Sanders, K Li, JCL Chow
JMIR Cancer 7(4), e27850 (2021) – Cited: 375

Application of nanomaterials in biomedical imaging and cancer therapy
S Siddique, JCL Chow
Nanomaterials 10(9), 1700 (2020) – Cited: 325

Irradiation of gold nanoparticles by X‐rays: Monte Carlo simulation of dose enhancements and the spatial properties of secondary electron production
MKK Leung, JCL Chow, BD Chithrani, MJG Lee, B Oms, DA Jaffray
Medical Physics 38(2), 624-631 (2011) – Cited: 311

Machine learning in healthcare communication
S Siddique, JCL Chow
Encyclopedia 1(1), 220-239 (2021) – Cited: 142

 

 

Ms. Ana Brito | Ceramics | Best Researcher Award

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Ms. Ana Brito | Ceramics | Best Researcher Award

Federal University of Rio Grande do Norte, Brazil.

Ana Melissa Paula Brito is a dedicated materials scientist from Natal, Brazil. With a strong background in materials engineering and nanotechnology, she specializes in synthesizing and characterizing innovative materials for scientific and industrial applications. Passionate about advancing the field, she has contributed significantly to research in nanomaterials, gaining recognition for her expertise in cutting-edge analytical techniques.

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Education 🎓

Ana Melissa Paula Brito holds a Master's Degree in Materials Science and Engineering (2023) from the Federal University of Rio Grande do Norte (UFRN). Her specialization lies in advanced materials analysis, where she gained hands-on experience with cutting-edge techniques such as X-ray diffraction (XRD), scanning electron microscopy (SEM), X-ray fluorescence spectrometry (FRX), and atomic force microscopy (AFM). Under the mentorship of Dr. Nicolau Castro at the Laboratory of Structural Characterization of Materials (LSCM), she conducted impactful research in materials characterization.

She also earned her Bachelor's Degree in Materials Engineering (2021) from UFRN, where she actively participated in projects focusing on the synthesis and characterization of innovative materials, further establishing a strong foundation in materials science.

Research Experience 🔬

2020-2021: Chemical synthesis of nanomaterials by spray pyrolysis method

Undergraduate research project under Dr. Mauricio Bomio. Acquired hands-on experience in synthesizing nanomaterials using the spray pyrolysis method.

2019-2020: Synthesis and characterization of calcium and barium molybdates by microwave-assisted hydrothermal method

Explored molybdate and tungstate synthesis methods, gaining expertise in hydrothermal techniques.

Teaching Experience 📚

Teaching Internship (Discipline: MTR0303-Nanomaterials)

Assisted Dr. Mauricio Bomio in teaching undergraduate students at UFRN, providing insights into nanomaterials synthesis and applications.

Research Interests 🌱

Nanomaterials: Chemical synthesis and characterization of advanced nanostructures for industrial and scientific applications.

Materials Analysis: Leveraging advanced techniques like XRD, SEM, and AFM for material characterization.

Sustainable Materials: Developing eco-friendly and innovative materials for future technologies.

Funding and Awards 🏆

Graduate Program in Materials Science and Engineering (PPGCEM-UFRN), supported by CAPES, Brazil – Finance Code 001.

Research Project PVG15419-2018: Funded by the National Council for Scientific and Technological Development (CNPq).

Research Project PIG13110-2016: Funded by CNPq for chemical synthesis of nanomaterials via spray pyrolysis.

Publication 📝

A green approach to the microwave hydrothermal synthesis of Bi₂₋ₓPrₓWO₆ and its photocatalytic and photoluminescence performance
Journal: Ceramics International
Published: January 2025
DOI: 10.1016/j.ceramint.2025.01.404
Contributors: A.M.P. Brito, M.D. Teodoro, R.L. Tranquilin, F.V. Motta, M.R.D. Bomio

 

 

Ms. Xiaohui Wang | Microelectronics | Best Researcher Award

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Ms. Xiaohui Wang | Microelectronics | Best Researcher Award

South University of Science and Technology of China.

Xiaohui Wang (汪晓) is a passionate and proactive researcher with a strong team spirit and a positive attitude towards learning. Known for his dedication and enthusiasm, Xiaohui is always focused on achieving the best results and is approachable, honest, and cheerful. With a solid academic background and notable achievements, he has built a strong reputation in his field. Currently, he is pursuing his Ph.D. at the Southern University of Science and Technology, focusing on semiconductor materials physics.

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Education 🎓

Xiaohui Wang is currently pursuing his Ph.D. at the Southern University of Science and Technology (2022-Present), focusing on Semiconductor Materials Physics. This advanced research allows him to explore cutting-edge innovations in material science, particularly in semiconductors and nanomaterials. Prior to this, he earned his Master's in Wood Science and Technology from Nanjing Forestry University (2019-2022), where he specialized in Polymer Material Modification, Adhesives, and Modern Chemical Analysis. His academic journey began with a Bachelor's degree in Wood Science and Engineering from Beihua University (2015-2019), where he studied Adhesives and Coatings, as well as Electrical and Electronic Technology. Xiaohui’s diverse educational background has laid a strong foundation for his interdisciplinary approach to research and innovation in materials science.

Experience 💼

Xiaohui Wang is currently a doctoral researcher at Southern University of Science and Technology, specializing in Semiconductor Materials Physics. His research is focused on developing advanced semiconductor materials and their applications in electronics, energy storage, and sensor technologies. Xiaohui aims to enhance nanomaterial applications, pushing the boundaries of material science to address key challenges in high-tech industries.

During his time as a Master's researcher at Nanjing Forestry University, Xiaohui worked on Polymer Material Modification, adhesives, and coatings. His work contributed to innovations in modern chemical analysis and sustainable materials, focusing on improving performance for industrial applications, particularly in wood science and forest engineering.

As an undergraduate researcher at Beihua University, Xiaohui laid the foundation for his future research by studying Wood Science and Engineering. He focused on adhesives, coatings, and electrical/electronic technologies, gaining a deep understanding of material properties and their potential applications across multiple fields.

Research Interests 🔬

Biomass-based Carbon Quantum Dots 🌱
Xiaohui explores the potential of carbon quantum dots (CQDs) derived from biomass, aiming to enhance photovoltaic performance in solar cells. By leveraging the properties of these eco-friendly materials, his work contributes to the development of more efficient and sustainable energy solutions.

Semiconductor Materials ⚛️
Xiaohui delves into the physics of semiconductor materials, with a focus on the modification of materials at the nano-scale. His work is pivotal in advancing the field of semiconductors, with applications in electronics, energy storage, and sensor technologies.

Polymer Material Modification 🧪
In the area of polymer material modification, Xiaohui is dedicated to enhancing adhesives, coatings, and other polymer materials. His research aims to improve the performance and durability of these materials for industrial use, particularly in environmentally sustainable applications.

Optical Coatings and Sensing Technologies 💡
Xiaohui is also involved in developing novel coating films that exhibit enhanced optical properties, such as fluorescent CQD-doped styrene acrylic emulsion films. Additionally, he innovates in heavy metal sensing techniques using biomass-derived carbon dots, advancing environmental monitoring tools for cleaner water sources.

Awards and Honors 🏆

Excellent Student (2019-2020): Nanjing Forestry University

Third Prize (2021): National College English Competition, Class A

Excellent Student (2020): Summer School of "Scientific and Technological Innovation and Green Development of Forestry Engineering," Hunan Province

Six-time Recipient: Second-Class and Third-Class Excellent Scholarships

Merit Student (Two-time)

Excellent League Member (Twice)

Excellent Class Cadre (Once)

Project Leader: Jilin University Student Innovation and Entrepreneurship Project

Attendee: 2021 Sustainable Materials Research Summit (SMART) International Conference

Publications Top Notes 📚

Optimization of CuOx/Ga2O3 Heterojunction Diodes for High-Voltage Power Electronics
Journal: Nanomaterials, 2025-01-08

Improved gate leakage current and breakdown voltage of InAlN/GaN MIS-HEMTs by HfAlOx-based charge-trapping layer dielectric and in situ O3 treatment
Journal: Applied Physics Letters, 2025-01-06

Improvement of DC Performance and RF Characteristics in GaN-Based HEMTs Using SiNx Stress-Engineering Technique
Journal: Nanomaterials, 2024-09

High-performance β-Ga2O3 Schottky barrier diodes with Mg current blocking layer using spin-on-glass technique
Journal: Applied Physics Letters, 2024-09-23

Biomass-based carbon quantum dots for polycrystalline silicon solar cells with enhanced photovoltaic performance
Journal: Energy, 2023-07

 

 

Mr. Yi Cui | Materials Science | Best Researcher Award

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Mr. Yi Cui | Materials Science | Best Researcher Award

Stanford University, United States.

Mr. YI Cui is a Ph.D. candidate in Materials Science and Engineering at Stanford University. He holds a B.S. in Chemistry from the University of Science and Technology of China (USTC). YI's research delves into the cutting-edge fields of materials science, particularly focusing on phase segregation dynamics in mixed halide perovskites and twisted epitaxial growth of gold nanodiscs in 2D materials. His innovative work has earned him recognition in the field of nanotechnology and energy materials.

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Education 🎓

YI Cui is currently pursuing a Ph.D. in Materials Science and Engineering at Stanford University, California, under the guidance of Professors Yi Cui and Bob Sinclair (Jan. 2021 - Jun. 2025). Prior to this, he completed a Bachelor of Science in Chemistry at the University of Science and Technology of China (USTC) in Hefei, where he was part of the prestigious Special Class for the Gifted Young, Department of Chemical Physics (Aug. 2016 - Jun. 2020).

Experience 💼

YI Cui has worked on groundbreaking research projects, including studying phase segregation dynamics in mixed halide perovskites using advanced cryo-EM techniques and pioneering twisted epitaxial growth methods for nanodiscs in 2D materials. His projects span from energy materials to nanotechnology, making significant contributions to understanding the behavior of materials at the atomic level. He has gained extensive research experience through collaborations with top professors at Stanford and USTC, focusing on the development of innovative materials for energy applications.

Research Interests 🔬

Phase segregation dynamics in mixed halide perovskites, particularly through cryogenic electron microscopy.

Twisted epitaxial growth of gold nanodiscs within twisted bilayer 2D materials, such as molybdenum disulfide.

Investigation of advanced materials for energy storage, such as lithium metal batteries and solid-state electrolytes.

Developing novel techniques for characterizing and manipulating materials at the atomic and nanoscale.

Publications Top Notes📚

Design Principles of Artificial Solid Electrolyte Interphases for Lithium-Metal Anodes, Cell Reports Physical Science, 2020
Contributors: Yu Zhiao, Cui Yi, Bao Zhenan. Link

Transient Voltammetry with Ultramicroelectrodes Reveals the Electron Transfer Kinetics of Lithium Metal Anodes, Adv. Energy Lett., 2020, Contributors: Boyle David, Kong Xian, Pei Allen, Rudnicki Paul, Shi Feifei, Huang William, Bao Zhenan, Qin Jian, Cui Yi. Link

Atomic-level insights into strain effect on p-nitrophenol reduction via Au@Pd core-shell nanocubes as an ideal platform
Journal of Catalysis, 2020-01-01, Contributors: Cui, Yi; Ma, Kaibo; Chen, Zhao; Yang, Jinlong; Geng, Zhigang; Zeng, Jie. Link

Dynamic Structure and Chemistry of the Silicon Solid-Electrolyte Interphase Visualized by Cryogenic Electron Microscopy, Matter, 2019, Contributors: Huang William, Wang Jiangyan, Braun R Michael, Zhang Zewen, Li Yuzhang, Boyle T David, McIntyre C Paul, Cui Yi. Link

 

 

Dr. Mohammad Reza Samadi | Manufacturing |  Best Faculty Award

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Dr. Mohammad Reza Samadi | Manufacturing |  Best Faculty Award

Faculty of Mechanics Department, Technical and Vocational University, Tehran, Iran

Dr. Mohammad Reza Samadi is an esteemed academic and researcher in Mechanical Engineering with a focus on Manufacturing and Production. Holding a Ph.D. in Mechanical Engineering, he has extensive experience in areas like welding, non-destructive testing (NDT), and advanced manufacturing processes. His impressive portfolio includes numerous certifications in Biotechnology, Materials and Metallurgy, and Industrial Inspection. As an award-winning researcher, Dr. Samadi has contributed significantly to the academic and industrial spheres through his research in nanocomposites, friction stir welding, and laser welding.

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Education🎓

Dr. Mohammad Reza Samadi completed his Ph.D. in Mechanical Engineering with a specialization in Manufacturing and Production, solidifying his expertise in cutting-edge manufacturing technologies. He also holds various international certifications in Biotechnology, Materials and Metallurgy, and Industrial Inspection, demonstrating his commitment to continuous professional development in the field of engineering.

Experience💼

With years of academic and industry experience, Dr. Samadi has excelled in research and teaching. He has authored several textbooks on welding processes, which are widely used in vocational and technical universities for training future engineers. His contributions extend beyond academia, as he is also engaged in applied research projects that enhance industrial manufacturing processes. Additionally, Dr. Samadi serves as a judge and reviewer for scientific conferences and technological projects, further cementing his role as a leader in the academic community.

Research Interests🔬

Welding & Non-Destructive Testing (NDT)🛠️
A significant portion of Dr. Samadi’s research focuses on welding processes, aiming to improve their efficiency and effectiveness. Additionally, his work on non-destructive testing (NDT) seeks to advance the ability to assess the integrity of materials without damaging them, ensuring that manufactured products meet stringent safety and quality standards.

Nanocomposites in Manufacturing🔬
Dr. Samadi explores the application of nanocomposites, materials that combine nanoparticles with polymers or metals to create superior materials with enhanced properties like strength, flexibility, and resistance to wear. His research in this area supports innovations in manufacturing processes, leading to the creation of lighter, stronger, and more durable materials.

Laser Welding Technologies⚙️
Laser welding is another area of interest in Dr. Samadi's research, where he investigates the benefits and challenges of using laser technology for precise, high-quality welding. This technology has applications in industries requiring fine, high-performance manufacturing, including electronics and automotive production.

Bridging Mechanical Engineering and Industrial Applications🔗
Dr. Samadi's interdisciplinary approach bridges the gap between theoretical mechanical engineering and practical industrial applications. His research is not only focused on theoretical advancements but also on their real-world implementation, helping to optimize manufacturing efficiency and improve product quality across a variety of industries.

Awards🏆

Dr. Samadi has been recognized multiple times for his research excellence, including receiving the "Best Researcher" award at both the university and provincial levels.

He has also earned silver medals at international innovation festivals, such as the prestigious Silicon Valley International Festival.

His outstanding contributions to research have been acknowledged globally, with numerous awards for his scientific presentations at national and international conferences.

Publications Top Notes📚

Optimization of FFF process parameters to improve the tensile strength and impact energy of polylactic acid/carbon nanotube composite, Authors: Hardani, H., Afshari, M., Allahyari, F., Afshari, H., Medina, E.M.M. Published in: Polymer Engineering and Science, 2024, 64(10), pp. 5047–5060. Link

Investigation of the effect of sintering process parameters on the corrosion, wear and hardness of W–Cu composite, Authors: Selahshorrad, E., Alavi, S.A., Zangeneh-Madar, K., Yazdanshenas, M., Afshari, M. Published in: Sadhana - Academy Proceedings in Engineering Sciences, 2024, 49(3), 209. Link

Design and optimization of mechanical and electromagnetic properties of GFRP composite, Authors: Talei-Fard, E., Parsa, H., Afshari, M., Samadi, M.R., Afshari, H. Published in: Journal of Materials Science: Materials in Electronics, 2024, 35(22), 1514. Link

Optimizing the sintering process parameters for simultaneous improvement of the compression strength, impact strength, hardness and corrosion resistance of W–Cu nanocomposite, Authors: Samadi, M.R., Zeynali, E., Allahyari, F., Zangeneh-Madar, K., Afshari, M. Published in: Modern Physics Letters B, 2024, 38(20), 2450169. Link

Studying the effects of FDM process parameters on the mechanical properties of parts produced from PLA using response surface methodology, Authors: Afshari, H., Taher, F., Alavi, S.A., Samadi, M.R., Allahyari, F. Published in: Colloid and Polymer Science, 2024, 302(6), pp. 955–970. Link