Sahaya Dennish Babu | material | Best Researcher Award

Published on 25/03/202525/03/2025 by ScienceFather

Sahaya Dennish Babu | material | Best Researcher Award

Dr. Sahaya Dennish Babu , Chettinad College of Engineering & Technology, India.

Dr. G. Sahaya Dennish Babu is a passionate educator and researcher specializing in functional nanomaterials for optoelectronic devices. Currently serving as an Assistant Professor in the Department of Physics at Chettinad College of Engineering & Technology, Karur, he is dedicated to teaching core and applied physics while actively contributing to nanomaterial synthesis for optics, bio-sensing, and CO₂ conversion. With expertise in interdisciplinary research and material characterization, he collaborates on national and international projects to advance sustainable technologies. Beyond academia, he leads initiatives in industrialization, intellectual property, and student mentorship, fostering innovation and scientific progress. 🚀📡💡

Publication Profile

Scopus

Orcid

Google Scholar

Education & Experience 🎓🔬

✅ Education

Ph.D. in Functional Nanomaterials for Optoelectronic Devices 🏆
M.Phil. in Physics 🎯
M.Sc. in Physics 📖

✅ Experience

Assistant Professor, Department of Physics (2017 – Present) 🏫
- Teaching Engineering Physics for multi-engineering branches.
- Coordinator of IPR, Industrialization Centre for Applied Nanoscience (ICAN), and Enrichment Committee.
- Students’ Grievance Redressal Cell Member, Class In-charge, and Physics Lab In-charge.

Summary Suitability

Dr. G. Sahaya Dennish Babu, M.Sc., M.Phil., Ph.D., is a distinguished researcher and educator specializing in Functional Nanomaterials for Optoelectronic Devices. His pioneering contributions in nanomaterials for energy applications, sustainable technologies, and advanced material synthesis make him a highly deserving candidate for the Best Researcher Award.

Professional Development 📚🔬✨

Dr. G. Sahaya Dennish Babu is deeply engaged in professional development, continuously enhancing his expertise in nanotechnology, sustainable materials, and physics education. He actively participates in national and international research collaborations, contributing to material synthesis and device fabrication for energy and bio-sensing applications. As an IPR Coordinator, he promotes intellectual property awareness, while his leadership in ICAN fosters industrial partnerships. His dedication to mentoring students, organizing workshops, and engaging in interdisciplinary research underscores his commitment to academic excellence and scientific innovation. Passionate about sustainability and technological advancements, he integrates problem-solving skills with hands-on experimentation. 🌍⚛️💡

Research Focus 🔬🌱🌍

Dr. G. Sahaya Dennish Babu’s research focuses on the design and synthesis of functional nanomaterials for applications in optoelectronics, energy conversion, and sustainable technologies. His expertise includes chalcogenides, perovskites, and nanostructures tailored for optics, bio-sensing, and CO₂ capture. He explores advanced nanomaterials for energy storage and conversion, aiming to develop eco-friendly solutions for global challenges. With a strong interdisciplinary approach, he collaborates on nanomaterial-driven innovations for healthcare, environmental monitoring, and green technologies. His work integrates material characterization, device fabrication, and applied physics, striving to create impactful solutions for a sustainable future. ⚡🌎🧪

Awards & Honors 🏆🎖️🌟

🏅 Best Researcher Award for contributions to nanomaterial synthesis and applications.
🏅 Outstanding Educator Award for excellence in teaching physics.
🏅 Innovation in Sustainable Technology Award for research in CO₂ conversion.
🏅 IPR Excellence Award for fostering intellectual property awareness.
🏅 Best Coordinator Award for leadership in student development initiatives.

Publication Top Notes

1️⃣ Morphology-optimized ZnSnO₃ nanopentagons as efficient electron transport layers for high-efficient perovskite solar cells – Journal of Solid State Chemistry (2025) 🔬☀️📄 | DOI: 10.1016/j.jssc.2025.125322

2️⃣ Microwave-assisted synthesis of Cu₂ZnSnS₄ and Cu₂Zn₀.₅Ni₀.₅SnS₄ nanoparticles for thin-film solar cells – Journal of Materials Science: Materials in Electronics (2024) 🔬⚡📄 | DOI: 10.1007/s10854-024-13956-9

3️⃣ Enhancement of MXene optical properties towards medical applications via metal oxide incorporation – Nanoscale (2023) 🏥🌱📄 | DOI: 10.1039/D3NR02527F

4️⃣ Highly flexible, green luminescent down-converting and hydrophobic 0-D cesium lead bromide (Cs₄PbBr₆)/poly (vinylidene difluoride) polymer nanocomposites for photonics and display applications – Inorganic Chemistry Communications (2023) 💡🎨📄

5️⃣ Magnetic Nanomaterials for Solar Energy Conversion Applications – Nanostructured Magnetic Materials: Functionalization and Diverse Applications (2023) 🧲☀️📖

Qiyao Yu | Materials | Best Researcher Award

Published on 19/02/202519/02/2025 by ScienceFather

Qiyao Yu | Materials | Best Researcher Award

Prof. Qiyao Yu, Beijing Institute of Technology, China.

Dr. Qiyao Yu is an Associate Professor and doctoral supervisor at the School of Mechanical and Electrical Engineering, Beijing Institute of Technology. She holds a Ph.D. in Chemical Engineering and Technology from Harbin Institute of Technology and completed her postdoctoral research at Beijing Institute of Technology. Her expertise lies in energy storage materials, particularly sodium/potassium-ion batteries. With over 60 SCI papers, 20+ patents, and leadership in multiple national projects, she is a recognized figure in her field. She also serves as an editorial board member for Battery Materials and a reviewer for the National Natural Science Foundation of China. ⚡📚

Publication Profiles

Scopus

Googlescholar

Education & Experience

Bachelor of Chemistry (2008-2012) – Beijing Institute of Technology 🎓
Master of Chemical Engineering (2012-2014) – Beijing Institute of Technology 🏛
Ph.D. in Chemical Engineering & Technology (2014-2018) – Harbin Institute of Technology 🔬
Postdoctoral Fellow (2018-2020) – Beijing Institute of Technology 🏗
Associate Professor & Doctoral Supervisor (2020-Present) – Beijing Institute of Technology 📖

Summary Suitability

Dr. Qiyao Yu is an esteemed Associate Professor at the Beijing Institute of Technology, specializing in electrochemical analysis, nanomaterial synthesis, and energy storage systems. Holding a Ph.D. from Harbin Institute of Technology, Dr. Yu has made groundbreaking contributions to alkali-ion battery research, playing a pivotal role in advancing energy materials and battery technology. Her work has bridged theoretical insights with experimental validation, contributing to the development of high-performance and sustainable energy solutions. Her pioneering research and commitment to innovation make her an ideal candidate for the Best Researcher Award.

Professional Development

Dr. Qiyao Yu has significantly contributed to the field of energy storage and chemical engineering. She has authored 60+ SCI papers, including 44 as first/corresponding author, with 22 papers having an impact factor greater than 10. She has led 10 national projects, obtained over 20 patents, and actively contributes as an editorial board member for Battery Materials. Her research delves into the design of advanced battery materials, focusing on sodium/potassium-ion storage. Dr. Yu also plays a vital role in teaching, textbook compilation, and knowledge graph development for chemistry and energy storage courses, ensuring the next generation of researchers thrives. 🔋🧪

Research Focus

Dr. Qiyao Yu’s research primarily revolves around next-generation energy storage systems, particularly sodium-ion and potassium-ion batteries. Her work emphasizes developing high-performance electrode materials, electrolyte engineering, and interfacial chemistry to enhance battery stability and efficiency. By integrating metal-organic frameworks, carbon nanostructures, and polyanionic compounds, her research aims to revolutionize commercial sustainable energy storage solutions. Her pioneering studies on ion migration, cathode/anode materials, and electrolyte interfaces contribute significantly to battery advancements. Her focus on scalability and real-world applications positions her as a key innovator in the future of renewable energy technologies. 🔋🔄🌱

Awards & Honors 🏆🎖

Beijing Quality Course (Key) – Fundamentals of Organic Materials Chemistry (2021) 🏆
Ministry of Industry and Information Technology Planning Textbook – Fundamentals of Organic Chemistry of Energetic Materials (2021) 📚
Ministry of Education Teaching Reform Projects – Knowledge Graph for Organic Chemistry & Weapons Courses (2023) 🏛
Leader of 10+ National Projects, including the National Natural Science Foundation of China 🎯
Editorial Board Member – Battery Materials 📰

Publications Top Noted

Bamboo‐Like Hollow Tubes with MoS₂/N‐Doped‐C Interfaces Boost Potassium‐Ion Storage 📡 | Cited by: 283 | Year: 2018
Metallic Octahedral CoSe₂ Threaded by N‐Doped Carbon Nanotubes: A Flexible Framework for High‐Performance Potassium‐Ion Batteries 🔋 | Cited by: 230 | Year: 2018
Amorphous Carbon/Graphite Coupled Polyhedral Microframe with Fast Electronic Channel and Enhanced Ion Storage for Potassium-Ion Batteries ⚡ | Cited by: 112 | Year: 2021
N-Doped Carbon/Ultrathin 2D Metallic Cobalt Selenide Core/Sheath Flexible Framework Bridged by Chemical Bonds for High-Performance Potassium Storage 🔬 | Cited by: 105 | Year: 2020
High-Throughput Fabrication of 3D N-Doped Graphenic Framework Coupled with Fe₃C@Porous Graphite Carbon for Ultrastable Potassium Ion Storage 🏗️ | Cited by: 103 | Year: 2019
Unraveling the Intercorrelation Between Micro/Mesopores and K Migration Behavior in Hard Carbon 🧩 | Cited by: 92 | Year: 2022
Copper Oxide Nanoleaves Decorated Multi-Walled Carbon Nanotube as Platform for Glucose Sensing 🍃 | Cited by: 87 | Year: 2012
The Multi-Yolk/Shell Structure of FeP@Foam-Like Graphenic Scaffolds: Strong P–C Bonds and Electrolyte- and Binder-Optimization Boost Potassium Storage 🔄 | Cited by: 86 | Year: 2019

Jin Bai | Material Synthesis | Best Researcher Award

Published on 04/02/202504/02/2025 by ScienceFather

Jin Bai | Material Synthesis | Best Researcher Award

Assoc. Prof. Dr. Jin Bai, Chinese Academy of Sciences, China.

Jin Bai is a dedicated researcher specializing in materials physics and chemistry, with a strong focus on functional materials and nanotechnology. He has contributed extensively to material synthesis, structural analysis, and advanced applications in energy storage and electronics. As a Special Associate Research Fellow at the Hefei Institutes of Physical Science, he continues to drive innovation through cutting-edge research. Recognized for his excellence, he has received multiple honors, including the ‘Hefei E Class High-Level Talents’ award. With numerous publications and a passion for discovery, he remains at the forefront of scientific advancements in materials science.

Publivation Profiles

SCOPUS

Education and Experience

Ph.D. in Materials Physics and Chemistry (2015–2020)
- University of Science and Technology of China (USTC)
Bachelor’s in Materials Physics (2011–2015)
- Huaibei Normal University, China
Special Associate Research Fellow (2024–Present)
- Hefei Institutes of Physical Science, Chinese Academy of Sciences
Postdoctoral Fellow (2020–2023)
- Hefei Institutes of Physical Science, Chinese Academy of Sciences

Suitability summary

Assoc. Prof. Dr. Jin Bai, a Special Associate Research Fellow at the Hefei Institutes of Physical Science, Chinese Academy of Sciences, is honored with the Best Researcher Award for his outstanding contributions to materials physics, nanomaterials, and advanced material synthesis. His research has significantly impacted cutting-edge material design, physical property optimization, and innovative applications in energy and electronic devices. His excellence has been recognized through multiple prestigious awards, including the ‘Hefei E-Class High-Level Talent’ Honor (2025) and the ‘Excellent Postdoctor’ Honor (2021-2023).

Professional Development

Jin Bai has built a distinguished career in materials physics, focusing on advanced materials and their applications in science and industry. During his postdoctoral tenure (2020-2023), he worked extensively on cutting-edge materials research, leading to significant innovations. Now, as a Special Associate Research Fellow, he is deeply involved in experimental and theoretical studies aimed at advancing functional materials. His work is widely recognized for its impact on materials science, contributing to global scientific knowledge. With an eye on the future, Jin Bai continues to drive research excellence, mentoring young scientists and collaborating internationally.

Research Focus

Jin Bai specializes in materials physics and chemistry, with a strong focus on functional materials, nanotechnology, and applied materials research. His research explores material synthesis, structural analysis, and functional properties to enhance applications in electronics, energy storage, and environmental solutions. He investigates nanomaterials, quantum materials, and bio-inspired materials to develop next-generation technological solutions. His work integrates theoretical and experimental approaches, bridging gaps in advanced material development. With numerous publications and honors, his research significantly contributes to the scientific community, driving innovation in high-performance materials for sustainable and technological applications.

Awards And Honours

2025 – ‘Hefei E Class High-Level Talents’ honor, Hefei, Anhui, China
2021-2023 – ‘Excellent Postdoctoral’ honor, Hefei Institutes of Physical Science, Chinese Academy of Sciences
2020 – ‘Excellent PhD Graduate’ honor, University of Science and Technology of China (USTC)

Publication Top Noted

Enhanced electrochemical characteristics of MnO anode induced cobalt dopant for Li-ion batteries (2025) – 0 citations

Ca/Li Synergetic-Doped Na0.67Ni0.33Mn0.67O2 to Realize P2-O2 Phase Transition Suppression for High-Performance Sodium-Ion Batteries (2024) – 0 citations

Amino Group-Aided Efficient Regeneration Targeting Structural Defects and Inactive FePO4 Phase for Degraded LiFePO4 Cathodes (2024) – 0 citations

Regulation of Sulfur Atoms in MoSx by Magneto-Electrodeposition for Hydrogen Evolution Reaction (2024) – 1 citation

Two Birds with One Stone: V4C3 MXene Synergistically Promoted VS2 Cathode and Zinc Anode for High-Performance Aqueous Zinc-Ion Batteries (2024) – 11 citations

Recent progress in critical electrode and electrolyte materials for flexible zinc-ion batteries (2024) – 1 citation

Surface Modification Driven Initial Coulombic Efficiency and Rate Performance Enhancement of Li1.2Mn0.54Ni0.13Co0.13O2 Cathode (2024) – 1 citation

Mo2N/CoN nanotube with synergistic reaction of intercalation and conversion enables high-performance lithium-ion batteries (2023) – 1 citation

Carbon Foam-Supported VS2 Cathode for High-Performance Flexible Self-Healing Quasi-Solid-State Zinc-Ion Batteries (2023) – 17 citations

Magneto-electrochemistry driven ultralong-life Zn-VS2 aqueous zinc-ion batteries (2023) – 12 citations

Feiyue Wu | Materials | Best Researcher Award

Published on 28/01/202528/01/2025 by ScienceFather

Feiyue Wu | Materials | Best Researcher Award

Dr. Feiyue Wu , Dalian University of Technology , China

🎓 Dr. Feiyue Wu is an Associate Professor at the School of Control Science and Engineering, Dalian University of Technology. He earned his Ph.D. in Control Theory and Control Engineering in 2021. His research specializes in the constrained control of switched systems and their applications in composite materials and structures. Dr. Wu has led five research projects, published 18 SCI/Scopus-indexed articles, and secured three national invention patents. His innovative methods contribute to optimizing the mechanical properties of composite materials. As an IEEE Member, Dr. Wu actively advances control science to enhance composite systems’ reliability and performance. 🌟🔬

Publication Profile

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Education and Experience

🎓 Ph.D. in Control Theory and Control Engineering (2021) – Dalian University of Technology, China.
🧑‍🏫 Associate Professor – School of Control Science and Engineering, Dalian University of Technology.
🛠️ Research Leader – Five projects, including a National Natural Science Foundation of China Youth Project.
🤝 Industry Collaboration – Four projects focused on composite material performance optimization.

Suitability Summary

Dr. Feiyue Wu, an Associate Professor at the School of Control Science and Engineering, Dalian University of Technology, is a distinguished nominee for the Best Researcher Award. With a strong academic foundation and a Ph.D. in Control Theory and Control Engineering (2021) from the same institution, Dr. Wu has made remarkable contributions to the fields of constrained control of switched systems and control allocation.

Professional Development

📈 Dr. Feiyue Wu’s innovative research bridges control science and composite materials. His work addresses critical challenges in optimizing material performance by introducing constrained control methods for switched systems. These advancements enhance the stability, durability, and efficiency of composites under dynamic conditions. 🛠️ He has published 18 indexed journal articles, led five research projects, and secured three national invention patents related to control applications in composite materials. Dr. Wu’s active engagement as an IEEE Member and his collaborations with industry underline his commitment to driving technological progress in materials science and engineering. 🚀🔍

Research Focus

🔬 Dr. Feiyue Wu’s research emphasizes control science applications in composite materials. By integrating constrained control methods with composite systems, he tackles challenges like dynamic load management, structural optimization, and material stability. His innovative use of semi-ellipsoidal invariant sets enables precise control, enhancing the mechanical properties of composites under various conditions. ⚙️ His work contributes to advancing sustainability and reliability in sectors utilizing composites, such as aerospace, automotive, and construction. With a focus on bridging theory and application, Dr. Wu is revolutionizing control methodologies to elevate composite material performance. 🤖🌿📘

Awards and Honors

🏆 Three National Invention Patents – Recognized for innovations in control science and composite materials.
📜 18 SCI/Scopus-Indexed Publications – High-impact contributions to control systems in material science.
⭐ National Natural Science Foundation of China Youth Project – Prestigious research funding leader.
🤝 Active IEEE Member – Advancing control science in composite systems.

Publications Top Notes

A Cross-Layer Game-Theoretic Approach to Resilient Control of Networked Switched Systems Against DoS Attacks
Self-Triggered Model Predictive Control for Switched Systems with Dwell Time Constraints
Prescribed Performance Bumpless Transfer Control for Switched Large-Scale Nonlinear Systems
Graph-Based Restricted and Arbitrary Switching for Switched Positive Systems via a Weak CLCLF
A Stackelberg Game Approach to the Stability of Networked Switched Systems Under DoS Attacks
Truncated Predictor Feedback Control for Switched Linear Systems Subject to Input Delay and Saturation
Multi-Rate Sampled-Data Control of Switched Affine Systems

EbtsamK Alenezy | Materials Science | Women Researcher Award

Published on 09/12/202409/12/2024 by ScienceFather

EbtsamK Alenezy | Materials Science | Women Researcher Award

Assist Prof Dr. EbtsamK Alenezy, Jouf University, Saudi Arabia.

Dr. Ebtsam K. Alenezy is the Vice Dean of the Deanship of Graduate Studies and Scientific Research and an Assistant Professor of Applied Chemistry at Jouf University, Saudi Arabia. With a Ph.D. in Applied Chemistry from RMIT University, Australia, Dr. Alenezy has made significant contributions to research, particularly in the areas of sustainable chemistry and materials science. She has received numerous prestigious awards, including the Jouf Award for Research (Patent) in 2023, and continues to advance scientific research and education at Jouf University. Dr. Alenezy is passionate about innovative chemical solutions for environmental sustainability and scientific development

Publication profile

Scopus

Orcid

Googlescholar

Education and Experience

Ph.D. in Applied Chemistry (2022), RMIT University, Australia
Master of Chemistry (2017), Ball State University, USA
Bachelor of Chemistry (2008), Jouf University, Saudi Arabia (Excellent with first Honorary Degree)
2023-Present: Assistant Professor, Applied Chemistry, Jouf University, Al Qurayyat, KSA
2018-2022: Lecturer, Chemistry Department, Jouf University, Al Qurayyat, KSA
2009-2017: Teaching Assistant, Chemistry Department, Jouf University, Al Qurayyat, KSA

Suitability For The Award

Dr. Ebtsam K. Alenezy is a highly accomplished Assistant Professor of Applied Chemistry at Jouf University, Saudi Arabia, with a remarkable track record in research and academia. With her outstanding academic qualifications, international recognition, and innovative contributions to the field of chemistry, she is an exemplary candidate for the Women Researcher Award.

Professional Development

Dr. Ebtsam K. Alenezy is dedicated to continuous professional growth in the field of applied chemistry. She has participated in several international research symposiums, contributed to patents, and has been recognized for her teaching excellence. Throughout her career, she has pursued advanced studies in sustainable materials, environmental chemistry, and nanotechnology, attending seminars and workshops to stay at the forefront of scientific innovation. Her work has positively impacted her community through research on eco-friendly solutions and sustainable chemical processes

Research Focus

Dr. Ebtsam K. Alenezy’s research is centered around sustainable chemistry, materials science, and environmental solutions. Her expertise includes the development of eco-benign materials, chemical processes that reduce environmental impact, and innovations in nanotechnology for energy and environmental applications. Dr. Alenezy is particularly interested in the synthesis of new compounds for energy storage, waste management, and catalytic processes, with a focus on green chemistry to create sustainable, environmentally friendly technologies .

Awards and Honors

Jouf Award for Research – 2023, KSA
First Place in the RMIT Beautiful Science Competition (2021), Australia
6th Saudi Scientific Symposium Award (2021), Australia
Champion Student of the Year Award (2021), CAMIC, RMIT University, Australia
IPMI Outstanding Student Recognition (2021), International Precious Metals Educational and Scientific Foundation, USA
Outstanding Student Award (2019, 2020), Saudi Arabian Cultural Mission (SACM), Australia

Publications Top Notes

“Low-Temperature Hydrogen Sensor: Enhanced Performance Enabled through Photoactive Pd-Decorated TiO2 Colloidal Crystals”- Cited by: 61, Year: 2020
“Enhanced amperometric acetone sensing using electrospun non-stoichiometric WO₃−ₓ nanofibers”-Cited by: 20, Year: 2021
“Recyclable SERS substrate: Optimized by reducing masking effect through colloidal lithography”- Cited by: 11, Year: 2022
“Efficient extraction of heavy metals from aqueous environments using magnetic effervescent Tablet-Assisted ionic Liquid-Based dispersive Solid-Phase microextraction”- Cited by: 7, Year: 2024
“Comparative analysis of high-performance UF membranes with sulfonated polyaniline: Improving hydrophilicity and antifouling capabilities for water purification”– Cited by: 4, Year: 2025
“Organic ligand interaction with copper (II) ions in both aqueous and non-aqueous media: overcoming solubility issues for sensing”- Cited by: 3, Year: 2022

Zengyan Wei | Materials Science | Best Researcher Award

Published on 07/12/202407/12/2024 by ScienceFather

Zengyan Wei | Materials Science | Best Researcher Award

Dr. Zengyan Wei, Harbin Institute of Technology, China.

Dr. Zengyan Wei is an Associate Professor at the School of Materials Science and Engineering, Harbin Institute of Technology, China. With a Ph.D. in Chemistry from the City University of New York (CUNY) and an M.Eng. in Materials Science from Beijing University of Chemical Technology, Dr. Wei has accumulated rich expertise in materials science and polymer engineering. His professional journey includes impactful teaching and research roles at Harbin Institute of Technology, CUNY-Hunter College, and the Chinese Academy of Sciences. Dr. Wei focuses on developing innovative materials with practical applications, contributing significantly to advancing modern materials science.

Publication profile

Scopus

Orcid

Googlescholar

Education and Experience

Education

Ph.D. (Chemistry) – City University of New York, USA (2009–2015)
M.Eng. (Materials Science) – Beijing University of Chemical Technology, PRC (2004–2007)
B.Eng. (Polymer Materials and Engineering) – Zhengzhou University, PRC (2000–2004)

Experience

Associate Professor – Harbin Institute of Technology, China (2023–Present)
Lecturer – Harbin Institute of Technology, China (2015–2022)
Visiting Lecturer – CUNY–Hunter College, USA (2015)
Adjunct Lecturer/Research Assistant – CUNY–Hunter College, USA (2009–2015)
Guest Researcher – Chinese Academy of Sciences, Beijing (2007–2008)
Research Assistant – Beijing University of Chemical Technology (2004–2007)

Suitability For The Award

Dr. Zengyan Wei is highly suited for the Best Researcher Award due to his impressive academic background and significant contributions to chemistry and materials science. His Ph.D. from CUNY, along with his roles at renowned institutions such as Harbin Institute of Technology and CUNY–Hunter College, showcases his expertise. His pioneering research on advanced materials, nanomaterials, and energy-related technologies has had a profound impact, demonstrating his exceptional qualifications for this prestigious recognition.

Professional Development

Dr. Zengyan Wei has progressively shaped his career in materials science through academic excellence, research, and teaching. After earning his Ph.D. at CUNY under Dr. Hiroshi Matsui, he enhanced his expertise in cutting-edge chemistry and materials synthesis. His global exposure, including visiting roles at Hunter College, enabled him to foster an interdisciplinary understanding of polymer engineering and advanced materials. Returning to China, Dr. Wei’s tenure at Harbin Institute of Technology marks his continued contribution to innovative research and mentoring young scientists, driving advancements in materials science for technological and industrial applications.

Research Focus

Dr. Zengyan Wei specializes in materials science with a focus on polymers, nanomaterials, and advanced material synthesis. His work bridges fundamental chemistry with real-world applications, exploring the design and development of new materials for energy, engineering, and environmental solutions.

Notably, his research includes polymer-based composites, high-performance functional materials, and sustainable nanomaterials for emerging technologies.

His interdisciplinary approach integrates chemistry, materials engineering, and applied sciences, aiming to address critical technological challenges and drive innovation in material applications, contributing to fields like renewable energy, environmental remediation, and advanced manufacturing.

Awards and Honors

Academic Excellence Award – City University of New York
Outstanding Researcher Award – Harbin Institute of Technology
Best Visiting Scholar Recognition – Chinese Academy of Sciences
Graduate Scholarship – Beijing University of Chemical Technology
Young Faculty Achievement Award – Harbin Institute of Technology

Publications

Biocompatible PEG‐chitosan@carbon dots hybrid nanogels – Cited by: 238 | Year: 2015 |
O-, N-Coordinated single Mn atoms accelerating polysulfides transformation – Cited by: 191 | Year: 2021 |
Magnetic iron oxide–fluorescent carbon dots integrated nanoparticles – Cited by: 169 | Year: 2014 |
Responsive polymer–fluorescent carbon nanoparticle hybrid nanogels – Cited by: 124 | Year: 2014 |
Fe₃O₄/carbon quantum dots hybrid nanoflowers – Cited by: 100 | Year: 2014 |
Near-infrared-and visible-light-enhanced metal-free catalytic degradation – Cited by: 82 | Year: 2015 |
Rational strategy for shaped nanomaterial synthesis – Cited by: 79 | Year: 2014 |
MXene‐Boosted Imine Cathodes for Aqueous Zinc‐Ion Batteries – Cited by: 76 | Year: 2022 |
Porous carbon protected magnetite and silver hybrid nanoparticles – Cited by: 66 | Year: 2013 |

Sagirul Islam | construction materials | Best Researcher Award

Published on 03/09/202403/09/2024 by ScienceFather

Sagirul Islam | construction materials | Best Researcher Award

Sagirul Islam, Bangladesh Council of Scientific and Industrial Research (BCSIR) , Bangladesh .

Md. Sagirul Islam is a Senior Scientific Officer at the Bangladesh Council of Scientific and Industrial Research (BCSIR) with extensive expertise in developing sustainable construction materials. Holding an MSc in Applied Chemistry and Chemical Engineering from the University of Rajshahi, Bangladesh, he has a strong background in research on eco-friendly construction materials, including lightweight concrete and refractory bricks. His work has been published in prominent journals like Heliyon and International Journal of Scientific & Engineering Research. With hands-on experience in XRD and XRF analysis, he contributes significantly to advancing sustainable building practices.

Publication Profile

Scopus

Suitability For The Award

Md. Sagirul Islam, Senior Scientific Officer at the Bangladesh Council of Scientific and Industrial Research (BCSIR), is a strong candidate for the Best Researcher Award due to his significant contributions to the field of sustainable materials and construction technologies. His qualifications and achievements supporting his suitability for this prestigious award include:

Education And Experience

Education

MS/MSc in Applied Chemistry and Chemical Engineering, University of Rajshahi, Bangladesh (2003)
- First Class, Marks: 504 (63%)
BSc in Applied Chemistry and Chemical Engineering, University of Rajshahi, Bangladesh (2002)
- Second Class, Marks: 1600 (50%)
Higher Secondary Certificate (HSC), Rajshahi Board, Bangladesh (1997)
- First Division, Marks: 607 (60.70%)
Secondary School Certificate (SSC), Rajshahi Board, Bangladesh (1995)
- First Division, Marks: 796 (79.60%)

Professional Experience

Senior Scientific Officer, Bangladesh Council of Scientific and Industrial Research (BCSIR) (2019 – Present)
Scientist, Bangladesh Council of Scientific and Industrial Research (BCSIR) (2006 – 2019)

Professional Development

Md. Sagirul Islam has enhanced his expertise through diverse professional development activities. He completed a three-month training in Refractories and Structural Ceramic Research at Central Glass & Ceramic Research Institute (CGCRI), India. He also attended the 1st Special Foundation Training Course at BPATC, Bangladesh, focusing on institutional management. Additional qualifications include an Office Management Course from NAPD, Dhaka, and a Website Design and Management course at Bangladesh Computer Council. His technical proficiency is complemented by hands-on experience with advanced instruments like XRD, WD-XRF, and ED-XRF. These experiences underscore his commitment to advancing in his field.

Research Focus

Md. Sagirul Islam’s research primarily focuses on the development of eco-friendly construction materials and the utilization of industrial byproducts. His work emphasizes optimizing the sintering temperature of bricks and enhancing the mechanical properties of ceramics and composites. Key areas include the creation of lightweight structural concrete using local clay and solid waste, improving the properties of Portland cement with sodium gluconate, and evaluating the performance of refractory bricks. His research also investigates the use of rice husk ash and other waste materials in brick production, aiming for sustainability and innovation in construction materials.

Publications

“Characterization on the impact load of a local corner region of a liquid tank entering water”
H Xie, J Li, G Shi, D Wang, H Tang
Ocean Engineering, 312, 119030 (2024)
“Experimental study of structural failure and ultimate strength of GFRP girder with hat stiffeners and foams under bending load”
GJ Shi, YH Ji, JB Xu, DY Wang, ZT Xu
Marine Structures, 96, 103607 (2024)
“Experiment Study of Critical Dynamic Loads for Stiffened Panels Under Axial Impact”
G Shi, D Wang
International Conference on Offshore Mechanics and Arctic Engineering, 87790 (2024)
“Impact load identification method based on frequency response pattern recognition and dynamic sensor filter strategy”
L Sun, D Wang, G Shi
Journal of Ocean Engineering and Science (2024)
“Dynamic ultimate capacity analysis of rectangular girder under hammer impact”
G Shi, D Wang
Vibroengineering Procedia, 54, 35-39 (2024)
“Experimental investigation of failure modes and ultimate strength of GFRP structure members under longitudinal compression”
Y Ji, G Shi, D Wang, Z Xu, J Xu
Ocean Engineering, 287, 115778 (2023)

Conclusion

Md. Sagirul Islam’s exceptional research achievements, innovative contributions to sustainable materials, and the significant impact of his work make him a standout candidate for the Best Researcher Award. His dedication to advancing construction technologies through both theoretical research and practical applications exemplifies his qualifications for this prestigious recognition.

Dr. Sahaya Dennish Babu , Chettinad College of Engineering & Technology, India.

Publication Profile

Education & Experience 🎓🔬

✅ Education

✅ Experience

Summary Suitability

Professional Development 📚🔬✨

Research Focus 🔬🌱🌍

Awards & Honors 🏆🎖️🌟

Publication Top Notes

Prof. Qiyao Yu, Beijing Institute of Technology, China.

Publication Profiles

Education & Experience

Summary Suitability

Professional Development

Research Focus

Awards & Honors 🏆🎖

Publications Top Noted

Bamboo‐Like Hollow Tubes with MoS₂/N‐Doped‐C Interfaces Boost Potassium‐Ion Storage 📡 | Cited by: 283 | Year: 2018

Metallic Octahedral CoSe₂ Threaded by N‐Doped Carbon Nanotubes: A Flexible Framework for High‐Performance Potassium‐Ion Batteries 🔋 | Cited by: 230 | Year: 2018

Amorphous Carbon/Graphite Coupled Polyhedral Microframe with Fast Electronic Channel and Enhanced Ion Storage for Potassium-Ion Batteries ⚡ | Cited by: 112 | Year: 2021

N-Doped Carbon/Ultrathin 2D Metallic Cobalt Selenide Core/Sheath Flexible Framework Bridged by Chemical Bonds for High-Performance Potassium Storage 🔬 | Cited by: 105 | Year: 2020

High-Throughput Fabrication of 3D N-Doped Graphenic Framework Coupled with Fe₃C@Porous Graphite Carbon for Ultrastable Potassium Ion Storage 🏗️ | Cited by: 103 | Year: 2019

Unraveling the Intercorrelation Between Micro/Mesopores and K Migration Behavior in Hard Carbon 🧩 | Cited by: 92 | Year: 2022

Copper Oxide Nanoleaves Decorated Multi-Walled Carbon Nanotube as Platform for Glucose Sensing 🍃 | Cited by: 87 | Year: 2012

The Multi-Yolk/Shell Structure of FeP@Foam-Like Graphenic Scaffolds: Strong P–C Bonds and Electrolyte- and Binder-Optimization Boost Potassium Storage 🔄 | Cited by: 86 | Year: 2019

Jin Bai | Material Synthesis | Best Researcher Award

Assoc. Prof. Dr. Jin Bai, Chinese Academy of Sciences, China.

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Dr. Feiyue Wu , Dalian University of Technology , China

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Assist Prof Dr. EbtsamK Alenezy, Jouf University, Saudi Arabia.

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“Low-Temperature Hydrogen Sensor: Enhanced Performance Enabled through Photoactive Pd-Decorated TiO2 Colloidal Crystals”- Cited by: 61, Year: 2020

“Enhanced amperometric acetone sensing using electrospun non-stoichiometric WO₃−ₓ nanofibers”-Cited by: 20, Year: 2021

“Recyclable SERS substrate: Optimized by reducing masking effect through colloidal lithography”- Cited by: 11, Year: 2022

“Efficient extraction of heavy metals from aqueous environments using magnetic effervescent Tablet-Assisted ionic Liquid-Based dispersive Solid-Phase microextraction”- Cited by: 7, Year: 2024

“Comparative analysis of high-performance UF membranes with sulfonated polyaniline: Improving hydrophilicity and antifouling capabilities for water purification”– Cited by: 4, Year: 2025

“Organic ligand interaction with copper (II) ions in both aqueous and non-aqueous media: overcoming solubility issues for sensing”- Cited by: 3, Year: 2022

Dr. Zengyan Wei, Harbin Institute of Technology, China.

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Biocompatible PEG‐chitosan@carbon dots hybrid nanogels – Cited by: 238 | Year: 2015 |

O-, N-Coordinated single Mn atoms accelerating polysulfides transformation – Cited by: 191 | Year: 2021 |

Magnetic iron oxide–fluorescent carbon dots integrated nanoparticles – Cited by: 169 | Year: 2014 |

Responsive polymer–fluorescent carbon nanoparticle hybrid nanogels – Cited by: 124 | Year: 2014 |

Fe₃O₄/carbon quantum dots hybrid nanoflowers – Cited by: 100 | Year: 2014 |

Near-infrared-and visible-light-enhanced metal-free catalytic degradation – Cited by: 82 | Year: 2015 |

Rational strategy for shaped nanomaterial synthesis – Cited by: 79 | Year: 2014 |

MXene‐Boosted Imine Cathodes for Aqueous Zinc‐Ion Batteries – Cited by: 76 | Year: 2022 |

Porous carbon protected magnetite and silver hybrid nanoparticles – Cited by: 66 | Year: 2013 |

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