Xueye Chen | Composite Materials Science | Best Researcher Award

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Prof. Xueye Chen | Composite Materials Science | Best Researcher Award

Professor at College of Transportation, Ludong University, China

Profile:

🏛️ Current Position

Professor Xueye Chen is a distinguished academician, serving as a Professor, Ph.D., and Graduate Supervisor. With a stellar reputation as a provincial outstanding scientific and technological worker, he holds numerous prestigious titles, including young expert of Taishan Scholars, provincial young top-notch talent, and provincial excellent master’s thesis instructor.

📜 Publication Achievements

Professor Chen has published a plethora of top-tier academic papers in internationally recognized journals, such as Small, Biosensors and Bioelectronics, and Lab on a Chip. His notable work, “A pressure sensor made of laser-induced graphene@carbon ink in a waste sponge substrate using novel and simple fabricating processes for health monitoring”, has garnered significant acclaim. Moreover, he has been granted numerous patents, showcasing his innovation in flexible MEMS intelligent sensing and micro-nano manufacturing.

🔬 Ongoing Research

  • Micro-Nano Manufacturing 
  • Flexible MEMS Intelligent Sensing 
  • Microfluidic Systems. These innovative investigations have practical applications in wearable equipment, medical health, and modern agriculture, pushing the boundaries of technology and science.

📚 Research Interests

  • Developing flexible sensors for wearable and health monitoring devices.
  • Exploring microfluidic systems for precise fluid manipulation in medical diagnostics.
  • Enhancing smart agriculture through advanced sensing technologies.

🎓 Academic Background

Professor Chen’s academic journey is marked by his tenure as a visiting scholar at Nanyang Technological University, Singapore, and the Hong Kong Polytechnic University. His strong foundation in science and technology has led him to excel in both academia and research.

🏆 Scholarships and Awards

Professor Chen has been recognized with seven prestigious provincial awards,

  • Provincial Natural Science Award 
  • Provincial Natural Science Academic Achievement Award 
    These accolades underscore his contributions to science and his leadership in academic excellence.

🧬 Bioinformatics and Contributions

Although primarily focused on micro-nano manufacturing, Professor Chen integrates bioinformatics tools to analyze and optimize his experiments in health monitoring and flexible sensing technologies.

🌐 Professional Associations

  • Editorial Board Member for the international journal Micromachines.
  • Active participant in organizing committees for conferences like MSMME, MMTMCE, and ICOIP.
  • Reviewer for high-impact journals and a trusted expert for institutions like the National Natural Science Foundation of China and the Degree Center of the Ministry of Education.

🏛️ Training & Workshops

Professor Chen frequently attends workshops and training sessions to stay abreast of emerging technologies in flexible electronics and intelligent sensing. His dedication to continuous learning inspires his students and collaborators alike.

🗣️ Oral Presentations

A skilled communicator, Professor Chen has delivered numerous impactful presentations at international conferences, sharing his breakthroughs with a global audience.

✅ Tasks Completed as a Researcher

  • Designing innovative laser-induced graphene-based sensors.
  • Supervising graduate students who have progressed to elite institutions such as Peking University, Tianjin University, and South China University of Technology.
  • Spearheading over ten significant projects funded by the National Natural Science Foundation of China and provincial organizations.

💪 Success Factors

  • Collaboration with multidisciplinary teams.
  • An unwavering commitment to innovation and practical application.
  • Mentorship of aspiring researchers, fostering the next generation of scientific leaders.

🏭 Publications & Laboratory Experience

Professor Chen’s laboratory is a hub of innovation, focusing on developing MEMS devices and microfluidic platforms. His publications are a testament to his dedication, addressing real-world challenges in health monitoring and agriculture.

📖Publications:

Paper Title: A novel dual-mode paper fiber sensor based on laser-induced graphene and porous salt-ion for monitoring humidity and pressure of human

  • Authors: Liang, A.; Dong, W.; Li, X.; Chen, X.
  • Journal: Chemical Engineering Journal
  • Year: 2024

Paper Title: A novel micromixer based on coastal fractal for manufacturing controllable size liposome

  • Authors: Chen, X.; Zhai, J.; Chen, X.
  • Journal: Physics of Fluids
  • Year: 2024

Paper Title: Optimization design of a two-step microreactor with spiral structure for high-performance catalytic reactions

  • Authors: Chen, X.; Chen, X.
  • Journal: International Journal of Chemical Reactor Engineering
  • Year: 2024

Paper Title: Numerical simulation of droplet formation in a Co-flow microchannel capillary device

  • Authors: Zhang, P.; Yan, H.; Chu, X.; Chen, X.
  • Journal: Chinese Journal of Analytical Chemistry
  • Year: 2024

Paper Title: A non-contact porous composite fiber paper-based humidity sensor for wearable breathing and skin humidity monitoring

  • Authors: Liang, A.; Chen, X.
  • Journal: Journal of Materials Chemistry A
  • Year: 2024

🌟 Conclusion

Professor Xueye Chen’s remarkable journey in academia and research epitomizes excellence and innovation. Winning the Best Researcher Award would not only honor his achievements but also empower him to expand the frontiers of science, inspiring future generations of researchers.

 

Rajeev Kumar | Composite Materials Science | Best Researcher Award

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Dr. Rajeev Kumar | Composite Materials Science | Best Researcher Award

Graphic Era Deemed to be University Dehradun Uttahrakhand, India

Profiles:

🎓 Current Position

Dr. Rajeev Kumar currently serves as an Assistant Professor at Graphic Era Deemed to be University, Dehradun, Uttarakhand, India, a position he has held since March 2024. With a career spanning over a decade, Dr. Kumar has been dedicated to teaching, research, and development in the fields of electronics and communication engineering. His expertise lies in areas like VLSI design, surface plasmon resonance sensors, and FPGA-based systems.

📜 Publication Achievements

Dr. Kumar has made significant contributions to the scientific community through his publications, especially in the field of Surface Plasmon Resonance (SPR) sensors and VLSI design. His Ph.D. research on “MXene (Ti₃C₂Tₓ)-based Surface Plasmon Resonance Sensors” has been instrumental in advancing biochemical sensing technology.
Notable publications include works in prestigious journals covering photonic crystal fiber sensors, biochemical sensing mechanisms, and digital circuit design methodologies.

🔬 Ongoing Research

Surface Plasmon Resonance Sensors Enhancing sensor performance using advanced nanomaterials like MXene. Photonic Crystal Fiber Sensors Investigating innovative designs for real-world applications. FPGA-based Systems  Developing efficient digital systems for high-speed communication protocols and fingerprint recognition. These projects aim to address challenges in precision sensing and digital system performance, contributing to industry-oriented solutions.

🔍 Research Interests

VLSI Technology and Design: Innovations in testing and implementing circuits using advanced tools. FPGA and ASIC Design: Leveraging Verilog, VHDL, and System Verilog for digital solutions. Surface Plasmon Resonance Sensors: Engineering applications for biochemical and environmental sensing. Digital Electronics and Integrated Circuits: Practical circuit designs and digital logic optimization.

🎓 Academic Background

Ph.D. in Electronics Engineering from NIT Uttarakhand, with a groundbreaking thesis on SPR sensors. M.Tech. in Microelectronics & VLSI Design from Kurukshetra University, where he worked on innovative projects like All-Digital Phase-Locked Loop Design. M.Sc. in Electronics from Bundelkhand University. B.Sc. in Electronics from G.N.K. College, Haryana. B.Tech. in Electronics & Telecommunication Engineering from IETE, Delhi (with an impressive 8.11 CGPA).

🏆 Scholarships and Awards

Dr. Kumar’s dedication to research has been recognized with numerous accolades,  Financial support and recognition under the SMDP-C2SD Project funded by MeitY, Government of India. Awards for his exceptional teaching and research contributions during his tenure at various institutions.

💻 Bioinformatics

Although his primary expertise is in electronics, Dr. Kumar has a keen interest in leveraging bioinformatics for sensor development, especially in biochemical applications. His interdisciplinary approach integrates computational tools with physical modeling.

🤝 Professional Associations

Dr. Kumar is an active member of several prestigious professional societies, contributing to the broader engineering and electronics community. These memberships enable him to stay at the forefront of emerging trends and research.

🏫 Training & Workshops

Dr. Kumar has participated in numerous training programs and workshops that have honed his technical and pedagogical skills. These include advanced training in FPGA design, Tanner EDA tools, and semiconductor technology.

🗣️ Oral Presentations

He has delivered insightful presentations at national and international conferences, showcasing his research on MXene-based SPR sensors. VLSI circuit innovations. Digital system optimizations.

🛠️ Tasks Completed as a Researcher

Dr. Kumar has successfully completed, RTL coding for hardware accelerators and communication protocols like UART. Development of transient models for HEMTs at DRDO, Timarpur. Standard cell layouts for digital circuits using Tanner EDA tools and HSPICE.

🌟 Success Factors

Interdisciplinary Collaboration-Bridging electronics, photonics, and biochemical sensing. Practical Expertise-Hands-on experience with advanced tools like Tanner EDA and FPGA boards. Academic Rigor-A strong commitment to continuous learning and innovation.

🧪Laboratory Experience

Dr. Kumar has extensive laboratory experience, ranging from digital circuit design to biochemical sensor testing. Designing XOR gates, full adders, and counters using Tanner Tools. Developing phase-locked loops and standard cells in VLSI circuits. Advancing biochemical sensing through MXene-based SPR research.

📖Publications:

Paper Title: Ultra high sensitive long range surface plasmon resonance sensor for chemical and biochemical sensing

  • Authors: Kumar, R., Kant Pandey, V.
  • Journal: Microchemical Journal
  • Year: 2024

Paper Title: Development of surface plasmon resonance sensor utilizing GaSe and WS2 for ultra-sensitive early detection of dengue virus

  • Authors: Kumar, V., Kumar, R., Pal, S., Prajapati, Y.K.
  • Journal: Optik
  • Year: 2024

Paper Title: ZnO and antimonene-based surface plasmon resonance sensor for enamel, dentin, and cementum layer detection in human teeth

  • Authors: Zaman, M.U., Pal, A., Uniyal, A., Karki, B., Kumar, R.
  • Journal: Journal of Materials Science: Materials in Electronics
  • Year: 2024

Paper Title: Halide perovskite and few-layer silicon-based surface plasmon resonance sensor for the detection of chemical and biochemical sensing

  • Authors: Kumar, R., Trabelsi, Y., Garia, L., Kakar, V.K., Pal, A.
  • Journal: Physica Scripta
  • Year: 2024

Paper Title: Improved ZnO-Ag-graphene oxide surface plasmon resonance organic sensor

  • Authors: Kumar, R., Singh, S., Chaudhary, B., Bhardwaj, R., Bhardwaj, P.
  • Journal: Optical and Quantum Electronics
  • Year: 2024

 

 

Fan Yang | Composite Materials Science | Best Researcher Award

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Prof. Fan Yang | Composite Materials Science | Best Researcher Award

Professor at China University of Petroleum, Beijing, China

Profile:

🏢Current Position

Dr. Fan Yang is a distinguished professor and doctoral supervisor at the State Key Laboratory of Heavy Oil Processing, within the College of Chemical Engineering and Environment at the China University of Petroleum, Beijing. With a focus on advancing new chemical materials and their applications in green chemical industries, energy, and environmental sectors, Dr. Yang plays a pivotal role in fostering innovation and academic excellence in these critical areas.

🔬 Ongoing Research

Green chemical processes for sustainable development. Development of advanced materials that enhance efficiency and reduce environmental impact. Innovations in energy storage systems and clean energy technologies. His research bridges the gap between theoretical chemistry and industrial applications, aligning closely with global goals of sustainability and carbon neutrality.

🧪 Research Interests

Development of eco-friendly chemical processes to mitigate environmental impacts. Exploration of innovative materials for energy and environmental applications. Application of catalysis and nanotechnology in chemical processes. These interests showcase his commitment to solving contemporary environmental challenges through cutting-edge science.

🎓 Academic Background

Dr. Yang holds a Ph.D. in Chemical Engineering, reflecting his robust academic foundation in this discipline. His academic journey is marked by a commitment to learning, teaching, and exploring transformative solutions in chemical engineering and environmental science.

🏆 Scholarships and Awards

China Patent Excellence Award (2021) by the State Intellectual Property Office (third finisher). Second Prize for Technical Invention (2017) from the China Petroleum and Chemical Industry Federation (third finisher). These honors highlight his pioneering contributions to research and innovation.

🧬 Bioinformatics

While primarily focused on green chemistry, Dr. Yang’s interdisciplinary approach occasionally integrates bioinformatics tools to study material properties and their interactions, further enriching his research endeavors.

🤝 Professional Associations

Dr. Yang is an active member of various professional societies, fostering collaborations and staying abreast of the latest trends in chemical engineering and environmental science. His memberships support knowledge exchange and strengthen the global research network.

🏫 Training & Workshops

To ensure continuous professional development, Dr. Yang regularly participates in international workshops and training sessions. These engagements not only refine his expertise but also enable him to mentor students and peers effectively.

🗣️ Oral Presentations

Dr. Yang has delivered numerous keynote speeches and presentations at prominent conferences, sharing his groundbreaking research with a global audience. His ability to articulate complex ideas has earned him recognition as a thought leader.

Tasks Completed as a Researcher

Successful commercialization of patents, demonstrating the practical impact of his research. Mentoring and supervising doctoral students who have gone on to achieve excellence in their respective fields. Leading projects that have significantly advanced green chemical processes.

🚀 Success Factors

Strong academic foundation and relentless pursuit of innovation. Ability to bridge the gap between theory and practice, ensuring real-world applicability of his research. Commitment to fostering collaborations within the scientific community.

🏭 Laboratory Experience

Dr. Yang’s expertise extends to the laboratory, where he employs state-of-the-art techniques to advance his research. His hands-on experience in designing and executing experiments ensures the reliability and applicability of his findings.

📖Publications:

Paper Title: Efficient generation of singlet oxygen (1O2) by CoP/Ni2P@NF for degradation of sulfamerazine through a heterogeneous electro-Fenton process at circumneutral pH

  • Authors: Yu, C., Liu, H., Wang, C., Yang, F., Li, Y.
  • Journal: Journal of Colloid and Interface Science
  • Year: 2025

Paper Title: Interfacial engineering of CoP-MoO2/NF heterojunction for high-efficient hydrogen evolution reaction coupled with 5-hydroxymethylfuran electrooxidation

  • Authors: Qian, J., Yang, F., Liu, H., Li, X., Li, Y.
  • Journal: Separation and Purification Technology
  • Year: 2024

Paper Title: Construction of Hierarchical Porous Carbon Support Pd Nanoparticle for Efficient Pyridine Hydrogenation Catalysis

  • Authors: Wang, J., Sun, Y., Liu, H., Yang, F., Li, Y.
  • Journal: Industrial and Engineering Chemistry Research
  • Year: 2024

Paper Title: The effect of the carbon components on the performance of carbon-based transition metal electrocatalysts for the hydrogen evolution reaction

  • Authors: Li, G.-H., Wang, J., Ren, J.-T., Yang, F., Li, Y.-F.
  • Journal: Xinxing Tan Cailiao/New Carbon Materials
  • Year: 2024

Paper Title: Asphalt induced highly dispersed CoP/MoO2 heterojunction embedded in porous N-doped carbon for pH-universal water splitting

  • Authors: Li, G., Yang, F., Che, S., Li, X., Li, Y.
  • Journal: International Journal of Hydrogen Energy
  • Year: 2024

 

 

Deepak Poddar | Composite Materials Science | Best Researcher Award

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Dr. Deepak Poddar | Composite Materials Science | Best Researcher Award

Doctorate at Indian Institute of Technology, India

Profile:

🎓 Current Position

Dr. Deepak Poddar currently serves as a Research Associate at the prestigious Indian Institute of Technology, Delhi (IIT Delhi). His role involves the development of paper-based food packaging materials, along with supervising M.Tech major thesis project work (MTP). His expertise in polymeric materials and sustainable technologies makes him a key contributor to cutting-edge research in polymer science and biomaterials.

📚 Publication Achievements

Dr. Poddar is a prolific researcher with an impressive portfolio of 10 journal articles and 6 book chapters published in reputed scientific outlets. These publications reflect his deep understanding of polymeric materials, biosensors, and biomaterials for tissue engineering. His work has significantly contributed to interdisciplinary research, providing innovative solutions to modern scientific challenges.

🔬 Ongoing Research

Dr. Poddar is actively engaged in groundbreaking projects that span diverse domains of polymer science and materials chemistry

Development of Electrochemical Biosensors for Stress Detection: Pioneering novel technologies to monitor stress levels.

Synthesis of Interstitial Doped MoSe₂ TMDC for Photocatalysis (under Prof. Anjana Sarkar): Exploring advanced materials for renewable energy and catalytic applications.

Reduced Metal Immobilized Polymeric Particles for Water Remediation (Ph.D. project at NSUT, Dwarka): Innovating solutions for environmental pollution control.

🧪 Research Interests

Biomaterials and Tissue Engineering: Special focus on porous polymeric scaffolds for bone tissue applications.

Polymeric Biosensors: Advancing diagnostic tools for stress detection.

Photocatalysis and Water Remediation: Leveraging polymer-metal composites for sustainable solutions.

Green Chemistry and Sustainable Technologies: Championing environmentally friendly approaches in material development.

🎓 Academic Background

Dr. Poddar has a robust academic foundation in Polymer Science and Technology with a specialization in biomaterials. His academic journey  Ph.D.: Fabrication of bi-facial porous polymeric scaffolds for bone tissue engineering applications (NSUT, Dwarka). M.Sc.: Advanced studies in polymer chemistry and material characterization.

🏆 Scholarships and Awards

  • Secured prestigious fellowships during his Ph.D. and teaching tenure at NSUT, Dwarka.
  • Recognition for innovative research contributions in polymeric materials and biomaterials.

🧬 Bioinformatics and Computational Tools

While his expertise is primarily rooted in experimental polymer science, Dr. Poddar has also utilized computational techniques to understand material properties and predict outcomes, integrating bioinformatics tools to enhance material designs.

🏛️ Professional Associations

Dr. Poddar actively collaborates with reputed institutions and professional bodies, fostering research synergies in polymer science and biomaterials.

🛠️ Training and Workshops

Dr. Poddar’s hands-on expertise stems from extensive training programs,

Functionalization of carbon nanomaterials (Graphene, Graphene oxide, CNTs) at Kumaun University, Uttarakhand.

Development of polymeric adhesives at Sri Ram Panels Pvt. Ltd. and Vin Poly Technologies.

Advanced workshops on polymer processing and characterization at leading institutes.

🎤 Oral Presentations

Dr. Poddar has delivered impactful presentations on biomaterials and biosensors at various national and international conferences, showcasing his ability to communicate complex ideas effectively.

Tasks Completed as a Researcher

Development of eco-friendly packaging solutions at IIT Delhi.

Mentorship of students and project supervision at NSUT, Dwarka.

Comprehensive report writing and market analysis for polymeric products during his tenure as a Research Assistant.

🌟 Success Factors

Interdisciplinary Expertise: Bridging diverse fields of polymer science, chemistry, and biomaterials.

Innovative Approach: Developing novel materials for environmental and biomedical applications.

Target Orientation: Delivering impactful results under tight timelines.

🧪 Laboratory Experience

Synthesis and characterization of polymeric scaffolds and biosensors.

Development of reduced metal-immobilized polymer particles for water treatment.

Photocatalytic materials synthesis for sustainable energy solutions.

🚀 Legacy and Future Goals

Pioneer next-gen polymeric materials for healthcare and sustainability.

Lead multidisciplinary teams to address critical challenges in biomaterials and green chemistry.

Continue contributing to the global scientific community through impactful research and collaborations.

📖Publications:

Paper Title: Development of electrosprayed assisted shellac-MOF particle coated paper for food packaging and its environmental impacts

  • Authors: Poddar, D., Pandey, K., Kim, S.-J., Yoo, H.M.
  • Journal: Sustainable Materials and Technologies
  • Year: 2024

Paper Title: Vanadium pentoxide-based nanomaterials for the treatment of dye-containing wastewater to avoid negative effects on the environment and human health

  • Authors: Bansal, S., Singh, A., Poddar, D., Jain, P.
  • Journal: Sustainable Environment and Health: Practical Strategies
  • Year: 2024

Paper Title: In-situ fabrication of poly-l-lactide & its application as a glass fiber polymer composite using resin transfer molding

  • Authors: Kim, S.-J., Pandey, K., Poddar, D., Yoo, H.M.
  • Journal: Polymer Composites
  • Year: 2024

Paper Title: Borophene-Based Materials for Gas and Wearable Sensing Applications

  • Authors: Kumar, S., Kashyap, S., Ansari, U., Sarkar, A., Poddar, D.
  • Journal: Engineering Materials
  • Year: 2024

Paper Title: Boron-Based Two-Dimensional Nanosheets in Energy Devices

  • Authors: Ansari, U., Kashyap, S., Kumar, S., Poddar, D., Singh, A.
  • Journal: Engineering Materials
  • Year: 2024

 

 

Weiqiang Yang | Composite Materials Science | Best Scholar Award

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Dr. Weiqiang Yang | Composite Materials Science | Best Scholar Award

Doctorate at Liaoning Technical University, China

Profile:

🌟Current Position

Weiqiang Yang serves as a dedicated Lecturer at the School of Materials Science and Engineering, Liaoning Technical University. Since joining in 2021, he has been actively contributing as a key teacher in the prestigious Key Laboratory of Mineral High Value and Energy Storage Materials in Liaoning Province, driving innovation in sustainable energy solutions. His work reflects his commitment to advancing the field of materials science with cutting-edge research and academic excellence.

📝 Publication Achievements

Weiqiang Yang’s prolific research career is marked by notable contributions to high-impact journals such as Advanced Optical Materials, Chemical Engineering Journal, and Green Chemistry. These publications demonstrate his expertise in perovskite materials and their applications, including:

The development of the most stable perovskite material, overcoming challenges in structural stability and efficiency.

Designing the first perovskite solar cell tailored for high-altitude areas, addressing environmental constraints and opening new avenues for renewable energy utilization. His papers are widely cited, underscoring his influence in the field.

🔬 Ongoing Research

Stability and Efficiency Optimization: Exploring innovative methods to enhance material longevity under varying conditions.

High-Altitude Solar Cells: Further refining designs to maximize performance in challenging climates.

Green Synthesis Techniques: Developing environmentally friendly approaches for material preparation, ensuring sustainability.

🧪 Research Interests

Perovskite materials: Aiming to revolutionize energy storage and solar technologies.

Energy-efficient materials: Addressing global energy needs through sustainable solutions.

Nanotechnology: Harnessing the power of nanoscale materials to innovate in the fields of optics and energy.

🎓 Academic Background

Dr. Yang earned his doctoral degree in Physics from Northeast Normal University in 2020, where his thesis laid the groundwork for his pioneering work on perovskite materials. He later joined Liaoning Technical University in 2021, where he quickly became an integral member of its research community.

🏆 Scholarships and Awards

Research Grants: Supporting his groundbreaking work in materials science.

Academic Honors: Acknowledging his innovative contributions to renewable energy technologies.

💻 Bioinformatics and Data Analysis

While his primary focus is on materials science, Yang integrates bioinformatics-inspired computational models to simulate material behaviors and optimize designs for practical applications.

🌐 Professional Associations

Dr. Yang actively collaborates with leading organizations in materials science and renewable energy, fostering interdisciplinary connections and staying at the forefront of emerging trends.

📚 Training & Workshops

  • Advanced Materials Synthesis
  • Sustainable Energy Solutions
  • Nanotechnology Applications

🗣 Oral Presentations

Dr. Yang has delivered impactful presentations at national and international conferences,

  • Enhancing the stability of perovskite solar cells.
  • Innovations in green material synthesis.

🛠 Tasks Completed as a Researcher

Successfully developing perovskite solar cells for extreme environmental conditions.

Pioneering cost-effective and sustainable manufacturing processes for energy storage materials.

🚀 Success Factors

Innovative Mindset: Always exploring uncharted territories in materials science.

Collaborative Spirit: Building strong partnerships to advance research.

Commitment to Sustainability: Balancing technological advancement with environmental responsibility.

🔬Laboratory Experience

Synthesized stable perovskite materials, a critical breakthrough in energy technology.

Conducted in-depth analysis of material properties to enhance solar cell efficiency.

Developed prototypes for high-altitude applications, achieving real-world impact.

📖Publication:

Paper Title: Design and simulation of strong cesium copper–bismuth chloride double perovskite solar cells with an efficiency exceeding 25% for plateau areas

  • Authors: Weiqiang Yang; Yan Jin; Wenjun Li; Jiku Wang; Jinlong Zha
  • Journal: Energy Conversion and Management
  • Year: 2025

 

 

Shah Mohammad Azam Rishad | Composite Materials Science | FRP Composite Material Science Breakthrough Award

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Mr. Shah Mohammad Azam Rishad | Composite Materials Science | FRP Composite Material Science Breakthrough Award

Khulna University of Engineering & Technology, Bangladesh

Profile:

Current Position📊

Shah Mohammad Azam Rishad is an Assistant Researcher at Khulna University of Engineering & Technology (KUET), Bangladesh. His role involves active participation in cutting-edge research, where he integrates advanced materials science with computational approaches to tackle pressing challenges in the field. His primary focus is on Nano Trimaterial bonded joints and Ultra-High Temperature Ceramic Matrix Composites (UHTCMCs). With a strong inclination toward interdisciplinary research, Shah is continuously contributing to innovations in materials design and performance optimization. 

Publication Achievements📚

Despite being early in his career, Shah Mohammad Azam Rishad has already contributed to several key publications in renowned scientific journals. His work on the prediction, optimization, and evaluation of Nano Trimaterial bonded joints using Finite Element Method (FEM) combined with various Machine Learning algorithms such as Random Forest, Neural Network, Support Vector Regression (SVR), and Decision Tree Regressor has received significant attention from the academic community. His publications explore the intersection of materials science and computational intelligence, making his research invaluable for industries aiming to optimize material behaviors and structural performance. 

Ongoing Research🔬

Currently, Shah is deeply involved in two main research areas. One of his ongoing projects explores UHTCMCs (Ultra-High Temperature Ceramic Matrix Composites) and MMCs (Metal Matrix Composites). His research focuses on the fabrication processes of these materials, along with their microstructural analysis using state-of-the-art techniques like SEM imaging, EDS, and mapping. Shah’s goal is to better understand the material behaviors and unlock potential applications in industries such as aerospace, automotive, and electronics. His work on Nano Trimaterial bonded joints continues, where machine learning algorithms are employed to predict and enhance the structural performance of advanced materials. 

Research Interests🔍

Shah’s research interests lie at the confluence of computational materials science, machine learning, and structural mechanics. He is particularly focused on developing innovative solutions for enhancing the mechanical properties of composites and nanomaterials. His areas of interest include:

  • Machine Learning Applications in Materials Science
  • Nano Trimaterial Bonded Joints
  • Ultra-High Temperature Ceramic Matrix Composites (UHTCMCs)
  • Metal Matrix Composites (MMCs)
  • Finite Element Method (FEM) for Structural Optimization
    His passion for merging materials science with artificial intelligence has opened new avenues for optimizing material properties and creating smarter, more resilient structures. 

Academic Background🎓

Shah Mohammad Azam Rishad holds a strong academic foundation in engineering and materials science, which has paved the way for his successful research endeavors. His education at KUET provided him with the skills necessary to excel in both theoretical and practical aspects of materials research. His academic journey reflects a commitment to understanding the deeper mechanics of materials and their applications across industries. 

Scholarships and Awards🏆

Throughout his academic career, Shah has been the recipient of numerous scholarships and academic awards, acknowledging his dedication to research and innovation. His ability to secure funding for research projects and his academic excellence have set him apart as a promising researcher in the field of materials science. 

Bioinformatics💻

While Shah’s core expertise lies in materials science, his interdisciplinary approach to research also draws upon aspects of bioinformatics. By applying computational methods to the analysis of material structures, Shah incorporates data-driven strategies to solve complex problems in materials behavior and optimization. His understanding of computational tools allows him to model and simulate material properties with high precision, leading to innovative research outcomes. 

Professional Associations🌐

Shah is a member of several professional societies and associations, which provide him with a platform to collaborate with fellow researchers and stay updated on the latest advancements in materials science. His involvement in these organizations reflects his commitment to expanding his network and contributing to the scientific community on a broader scale. 

Training & Workshops🎓

To further enhance his research capabilities, Shah actively participates in national and international workshops and training programs. These experiences allow him to stay abreast of the latest trends in materials research and computational methods. He has received hands-on training in microstructural analysis techniques, FEM simulation, and machine learning algorithms specific to materials science. 

Oral Presentation🎤

Shah has presented his research findings at various conferences and symposia, where he shared his insights on the potential applications of machine learning in optimizing material properties. His ability to communicate complex ideas effectively has garnered attention and appreciation from peers and experts in the field. 

Tasks Completed as a Researcher🛠️

Shah has successfully completed numerous tasks as a researcher, including the design and execution of experiments, data analysis using machine learning models, and the publication of his findings in respected journals. His responsibilities extend to mentoring junior researchers and collaborating with other faculty members to push the boundaries of materials science. 

Success Factors🚀

The key to Shah’s success lies in his problem-solving mindset, interdisciplinary knowledge, and commitment to innovation. His ability to seamlessly blend theoretical knowledge with practical applications has allowed him to make significant contributions to his field. His work ethic and continuous pursuit of excellence have earned him a reputation as a dedicated and forward-thinking researcher. 

Publications & Laboratory Experience🏭

Shah’s extensive laboratory experience in fabrication, microstructural analysis, and mechanical testing has been pivotal in his research. His publications reflect his in-depth knowledge of advanced materials and his ability to apply computational models for optimization. The hands-on experience Shah has gained in the lab has been complemented by his proficiency in FEM analysis and machine learning tools, making his contributions both practical and innovative. 

📖Publications:

Paper Title: Evaluation of Stress Distributions in Trimaterial Bonded Joints with Nano-Resin Adhesive Using Machine Learning Models

  • Authors: SMA Rishad, MS Islam, MA Islam
  • Journal: Results in Materials
  • Year: 2024

Paper Title: Analysis of Stress Distribution of CFRP Bonded Joints: A Study of Numerical and Machine Learning Approach

  • Authors: SMA Rishad, MA Islam, MS Islam
  • Journal: Available at SSRN
  • Year: 2024