Yuanjie Liang | Fiber Reinforced Electrode Materials | Best Researcher Award

Mr. Yuanjie Liang | Fiber Reinforced Electrode Materials | Best Researcher Award

Chongqing Vocational Institute of Safety Technology, China

Profile:

💼 Current Position

Since 2016, Yuanjie Liang has served as a Professional Teacher at the Chongqing Vocational Institute of Safety Technology. His role encompasses teaching, research, and practical engagements in chemical safety technology.  Undergraduate Teaching Delivering in-depth knowledge and practical applications in chemical safety. Laboratory Supervision Guiding students in course experiments, ensuring rigorous scientific methodology. Research Leadership Spearheading projects that tackle national challenges in chemical safety development. Enterprise Safety Inspections Enhancing safety protocols for chemical enterprises. High-End Experiments Conducting cutting-edge research to push the boundaries of chemical safety innovation.

🎓 Academic Background

Yuanjie Liang began his academic journey in Chemical Safety Technology at Chongqing University of Science and Technology, earning a Bachelor’s degree (2009–2013). During his undergraduate years, he built a robust foundation in chemical safety principles and practices. Liang continued his studies at the same institution, completing a Master’s degree (2013–2016). His master’s research encompassed advanced topics such as fiber-reinforced composites and water treatment technologies, equipping him with a multidisciplinary perspective and innovative problem-solving skills.

🏆 Scholarships and Awards

Yuanjie has been recognized for his dedication and contributions to science and education through several accolades, Successfully completed a Chongqing-level Humanities and Social Science project. Played a pivotal role in executing the Chongqing Youth Science and Technology project, reflecting his commitment to youth-oriented scientific advancements.

🔬 Research Interests

Liang’s research focuses on chemical safety technology, fiber-reinforced composites, and water treatment solutions.  Develop innovative safety technologies to mitigate industrial hazards. Explore sustainable water treatment methods. Enhance the performance of composites in industrial safety applications.

📚 Publication Achievements

Yuanjie Liang has contributed to significant research projects in chemical safety and published findings in reputable journals. His work has provided valuable insights into the development of safety protocols and the optimization of industrial materials.

🔬Ongoing Research

Liang is actively engaged in addressing critical challenges in chemical safety.  Developing next-generation safety technologies for the chemical industry. Investigating advanced materials for industrial applications. Collaborating with enterprises to enhance workplace safety standards.

🌟 Professional Associations

Liang is a member of several prestigious professional organizations, ensuring his work remains at the forefront of global chemical safety standards. His affiliations enable him to stay updated on industry trends and contribute to collaborative initiatives.

🎤 Oral Presentations

Yuanjie has delivered impactful presentations at various forums, sharing his expertise on Chemical safety technologies. Innovations in water treatment. Applications of fiber-reinforced composites.

🔧Tasks Completed as a Researcher

Designed and implemented experiments to improve industrial safety protocols. Contributed to the successful execution of government-funded research projects. Guided student teams in solving complex industrial challenges, fostering innovation and critical thinking.

📊 Success Factors

Technical Expertise His mastery in chemical safety and material sciences. Collaborative Approach: Working closely with industry partners and academic peers. Commitment to Education His passion for nurturing the next generation of safety professionals.

🔍 Training & Workshops

Yuanjie actively participates in specialized training programs and workshops, continually enhancing his expertise in chemical safety. These experiences keep him aligned with the latest advancements in his field.

🧪 Publications & Laboratory Experience

The performance of fiber-reinforced composites. Water treatment technologies for industrial applications. Safety assessments for chemical enterprises. His publications serve as valuable resources for peers and professionals in the field of chemical safety.

🌐 Impact and Influence

Through his roles in teaching, research, and industry collaboration, Yuanjie Liang has significantly impacted chemical safety standards. His dedication to education and innovation ensures his work continues to shape safer industrial environments and inspire future researchers.

📖Publications:

Paper Title: Tailoring Pd-Co/PPD/NS composite electrode for efficient electrocatalytic dechlorination of 4-chlorophenol

  • Authors: Liang, Y., Li, X., Xu, Q., Hou, Z.
  • Journal: Journal of Electroanalytical Chemistry
  • Year: 2025

Paper Title: Fracture behaviors of sustainable recycled aggregate concrete under compression-shear loading: Laboratory test, numerical simulation, and environmental safety analysis

  • Authors: Liang, Y.
  • Journal: Case Studies in Construction Materials
  • Year: 2024

Paper Title: Mode II Fracture Properties and Microscopic Damage Characteristics of Granite Under Freeze–Thaw Cycles: Laboratory Testing

  • Authors: Liang, Y., Li, X.
  • Journal: Fatigue and Fracture of Engineering Materials and Structures
  • Year: 2024

 

Deepak Poddar | Composite Materials Science | Best Researcher Award

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

 

 

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

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

 

Xiaoxiao Zhou | Composite Materials Science | Best Researcher Award

Ms. Xiaoxiao Zhou | Composite Materials Science | Best Researcher Award

University of Science and Technology Beijing, China

Profile:

Current Position🎓

Xiaoxiao Zhou is currently a Master’s student at the prestigious University of Science and Technology Beijing. She is pursuing her studies within the School of Materials Science and Engineering, a field that demands technical expertise and innovation. As a budding researcher, she focuses on lead-free ferroelectric ceramics, contributing to the growing field of sustainable materials science.

Ongoing Research🔬

Xiaoxiao’s ongoing research focuses on the preparation and properties of lead-free ferroelectric ceramics. The drive toward sustainability in material science pushes the boundaries of traditional ceramics, and her work is aligned with global efforts to find environmentally friendly alternatives. Lead-free ceramics are vital for reducing environmental toxicity while maintaining the same functional properties required in electronics and other technologies.

Research Interests🔍

  • Lead-free ferroelectric ceramics: These materials are used in capacitors, piezoelectric devices, and actuators due to their dielectric and piezoelectric properties.
  • Sustainable material science: She is dedicated to contributing to a more environmentally friendly world by discovering and improving materials that eliminate harmful substances like lead.

Academic Background🎓

Xiaoxiao Zhou has consistently demonstrated academic excellence. She is currently enrolled at the University of Science and Technology Beijing, which is known for its strength in engineering and materials science. Her rigorous education has equipped her with both theoretical knowledge and hands-on experience in cutting-edge materials research.

Scholarships and Awards🏅

Though specific scholarships and awards are not yet listed, Xiaoxiao’s contributions and promising academic trajectory indicate she may be a candidate for future accolades. Her research field, combined with her growing publication record, positions her as a strong contender for research scholarships and early-career awards in materials science.

Bioinformatics🧬

While her primary research focus is in materials science, the interdisciplinary nature of modern research often involves the use of bioinformatics tools for data analysis. Although not central to her work, bioinformatics might play a role in analyzing large datasets related to material properties or simulations of material behavior.

Professional Associations👩‍🔬

As a Master’s student engaged in advanced research, Xiaoxiao Zhou is likely involved in several professional materials science associations. These could include:

  • Materials Research Society (MRS)
  • The Chinese Ceramic Society (CCS)

Such memberships provide her with networking opportunities, access to the latest research, and platforms to present her work.

Training & Workshops🛠️

Xiaoxiao has likely attended scientific workshops and training sessions relevant to materials preparation, characterization techniques, and ceramic engineering. Such training enables her to master sophisticated lab equipment and software used in materials science, ensuring that her research is at the forefront of the field.

Oral Presentations🎤

Given her publications, Xiaoxiao may have presented her work at international conferences or internal university symposiums. Presenting research fosters communication skills and provides feedback from other professionals, essential for refining and progressing her projects.

Tasks Completed as a Researcher✅

  • Designing experiments for the synthesis and characterization of ceramics.
  • Data collection and analysis using advanced tools and techniques.
  • Collaborating with peers and senior researchers to push forward innovative projects in ferroelectric materials.

Success Factors🏆

  • Deep subject knowledge: Her expertise in ceramics and materials science forms the backbone of her achievements.
  • Analytical skills: Processing and interpreting complex data is key to her innovative work.
  • Passion for sustainable materials: Her focus on lead-free ceramics reflects her commitment to environmental responsibility in science.

Publications & Laboratory Experience🧪

Xiaoxiao’s experience in the laboratory is vast. Her work in preparing ceramics demands a high level of precision and the use of cutting-edge equipment. This includes advanced techniques such as X-ray diffraction (XRD), scanning electron microscopy (SEM), and electrical property measurements. Her technical expertise, paired with her knowledge in material properties, has led her to successful publications, contributing to fields where her research can have practical applications in industries like electronics and energy.

📖Publications:

Paper Title: Optimized strain property in Sm3+ doped 0.67BiFeO3-0.33BaTiO3 ceramics by electric field induced lattice distortion and domain wall motion

  • Authors: Hao, Y., Yin, Y., Liu, H., Pei, J., Zhang, B.-P.
  • Journal: Journal of Alloys and Compounds
  • Year: 2024

Paper Title: Bi compensation and poling process to enhance piezoelectric properties of BiFeO3-BaTiO3 lead-free piezoceramics

  • Authors: Zhou, X., Peng, X., Xu, H., Li, H., Zhang, B.-P.
  • Journal: Ceramics International
  • Year: 2024

Paper Title: Relaxation behavior of BF-BT based ceramics and improved energy storage performance under low electric field

  • Authors: Xie, L.-T., Zhou, X.-X., Tang, Y.-C., Pei, J., Zhang, B.-P.
  • Journal: Journal of Materials Science: Materials in Electronics
  • Year: 2024

Paper Title: BiAlO3-modified BiFeO3–BaTiO3 high Curie temperature lead-free piezoelectric ceramics with enhanced performance

  • Authors: Zhou, X.-X., Tang, Y.-C., Li, H.-Z., Peng, X.-Y., Zhang, B.-P.
  • Journal: Rare Metals
  • Year: 2023

Paper Title: Deciphering the leakage conduction mechanism of BiFeO3–BaTiO3 lead-free piezoelectric ceramics

  • Authors: Xue, M., Tang, Y., Shan, Z., Pei, J., Zhang, B.
  • Journal: Journal of Advanced Ceramics
  • Year: 2023

 

Yuchen Guo | Composite Materials Science | Best Researcher Award

Dr. Yuchen Guo | Composite Materials Science | Best Researcher Award

Doctorate at Xi’an Aeronautical Institute, China

Profile:

Current Position 📚

Yuchen Guo is currently a full-time Lecturer at Xi’an Aeronautical Institute, a prominent institution located in Xi’an, Shaanxi Province, China. Since March 2024, he has been contributing to the academic and research community, leveraging his expertise in road and railway engineering to shape future engineers. His role involves teaching, mentoring students, and leading research projects focused on transportation engineering.

Publication Achievements 📑

  • Study on Automatic Anti-Icing Effect and Rheological Properties of Asphalt Based on SiO2 Nanowires (2024): This groundbreaking research explores how nanowires can improve asphalt’s resistance to icing, making roads safer in cold regions.
  • Physico-Chemical and Mechanical Properties of Asphalt Binders Blended with Waste Bio-Shell Powder (2023): In this study, Yuchen investigated the recycling potential of bio-shell powder in asphalt mixtures, contributing to sustainable pavement engineering.
  • Effect of Recycled Shell Waste as a Modifier on the High- and Low-Temperature Rheological Properties of Asphalt (2021): Published in Sustainability, this article reflects Yuchen’s ongoing commitment to eco-friendly engineering solutions by incorporating waste materials into construction.

His work focuses on using modified asphalt and recycling solid waste to improve pavement performance, aligning with global sustainability goals. 

Ongoing Research 🔬

Yuchen’s ongoing research centers on innovative solutions for road and railway engineering, with an emphasis on:

  • Pavement De-icing: Developing materials and methods to ensure safe driving conditions during winter months.
  • Modified Asphalt: Enhancing the durability and functionality of asphalt through the use of nanomaterials, bio-shell powders, and other modifiers.
  • Solid Waste Recycling: Investigating how recycled materials can be incorporated into road construction to reduce environmental impact.

His current projects are focused on improving asphalt performance under extreme weather conditions, making transportation infrastructure more resilient and eco-friendly.

Research Interests 🛠️

  • Road and Railway Engineering: Focused on construction materials and techniques that improve pavement durability.
  • Pavement De-icing: Addressing challenges posed by cold regions and ensuring year-round road safety.
  • Modified Asphalt: Utilizing advanced materials like nanowires and recycled waste to enhance asphalt properties.
  • Solid Waste Recycling: Promoting sustainability by incorporating recycled materials in construction projects.

His research aligns with the latest trends in sustainable engineering, emphasizing eco-friendly practices and technological innovations.

Academic Background 🎓

Yuchen Guo’s academic journey is marked by a focus on civil and transportation engineering. 

  • Ph.D. Candidate in Transportation Engineering (Road and Railway Engineering) at Chang’an University (2019–2023).
  • Master’s Degree in Civil Engineering (Road and Railway Engineering) from Inner Mongolia University of Technology (2016–2019).
  • Bachelor’s Degree in Civil Engineering (Bridge and Road Engineering) from Xi’an Peihua University (2012–2016).

Each phase of his academic life has equipped him with in-depth knowledge and hands-on experience in road construction, pavement technology, and railway infrastructure.

Scholarships and Awards 🏆

Yuchen has received numerous accolades for his academic excellence and research contributions. His ability to secure and lead prestigious projects, such as the Inner Mongolia Department-Level Project, highlights his commitment to advancing road engineering techniques.

Professional Associations & Training 👨‍🏫

As an active member of the academic community, Yuchen is involved in several professional associations related to transportation engineering. His participation in these organizations allows him to stay updated with industry developments and contribute to collaborative research efforts. Additionally, Yuchen has attended numerous workshops and training sessions, further enhancing his knowledge and teaching methodologies.

Oral Presentations 🎤

Yuchen has presented his research at various national and international conferences, sharing his findings on topics such as asphalt modification and solid waste recycling. His presentations have been well-received, marking him as a leading voice in the field of transportation engineering.

Tasks Completed as a Researcher 🔍

During his tenure at Chang’an University and other institutions, Yuchen has led several large-scale research projects, including:

  • Principal Researcher for the Inner Mongolia Department-Level Project (NJ-2016-17): Focused on studying asphalt pavement structures in cold regions.
  • Principal Researcher for the Inner Mongolia Xingtai Group Project: Investigated ways to improve the performance of cold recycled asphalt pavement in areas with large temperature fluctuations.

Yuchen’s ability to manage and deliver complex research outcomes is evident in his leadership of multiple high-impact projects.

Success Factors & Contributions 🌟

Yuchen’s success as a researcher and academic is driven by his dedication to sustainable practices, innovative engineering solutions, and a passion for improving transportation infrastructure. His work on using recycled materials not only advances pavement technology but also supports environmental sustainability.

Publications & Laboratory Experience 🧪

With numerous publications in high-impact journals, Yuchen’s work continues to influence the field of road and railway engineering. His laboratory experience includes experimenting with modified asphalt binders, testing the mechanical properties of pavement materials, and exploring new ways to utilize waste in construction.

📖Publications:

Paper Title: Study on automatic anti-icing effect and rheological properties of asphalt based on SiO2 nanowires

  • Authors: Guo, Y., Tian, B., Zhao, J., Ji, G., Wang, X.
  • Journal: Case Studies in Construction Materials
  • Year: 2024

Paper Title: Physico-chemical and mechanical properties of asphalt binders blended with waste bio-shell powder

  • Authors: Guo, Y., Ji, G., Wang, X., Tian, B., Zhang, Y.
  • Journal: International Journal of Pavement Engineering
  • Year: 2023

Paper Title: Study on Microwave Deicing Efficiency of Microwave-Absorbing Concrete Pavements and Its Influencing Factors

  • Authors: Liu, M., Wang, X., Deng, Y., Zhao, J., Li, M.
  • Journal: Materials
  • Year: 2022

Paper Title: Seismic behavior of energy dissipation shear wall with CFST column elements

  • Authors: Su, H., Zhu, L., Wang, Y., Meng, L., Yuan, H.
  • Journal: Steel and Composite Structures
  • Year: 2022

Paper Title: Study on the physical, chemical and nano-microstructure characteristics of asphalt mixed with recycled eggshell waste

  • Authors: Ji, G., Wang, X., Guo, Y., Yin, Q., Luo, Y.
  • Journal: Sustainability (Switzerland)
  • Year: 2021

 

Fujin Deng | FRP in Renewable Energy | Best Researcher Award

Prof. Fujin Deng | FRP in Renewable Energy | Best Researcher Award

Professor at Southeast University, China

Profiles:

Current Position 🏛️

Dr. Fujin Deng is currently a Professor and the Head of the Department of Power Electronics at the School of Electrical Engineering, Southeast University (SEU), China. Since May 2017, he has been contributing extensively to the field of renewable energy and power electronics technology. With his deep expertise and leadership, Dr. Deng is at the forefront of cutting-edge research in high-voltage technologies, positioning himself as a vital figure in the field.

Publication Achievements 📚

Dr. Deng has made significant contributions to the world of academia, particularly in the field of power electronics. His research has resulted in numerous publications focusing on modular multilevel converters (MMCs), high-voltage direct current (HVDC) systems, and DC grid control. His work has been extensively cited, reflecting the practical relevance and impact of his research on real-world power systems. Through his innovative work, Dr. Deng has established a strong academic footprint in renewable energy and power electronics applications.

Ongoing Research 🔬

Currently, Dr. Deng is leading several notable projects funded by national and international research bodies. Among these is the National Natural Science Foundation of China Joint Fund (2024-2027), where he is investigating bipolar modular AC-AC inverter technology for offshore low-frequency transmission. He is also the Principal Investigator (PI) for a project under the National Key Research and Development Program of China (2023-2025), focusing on multi-objective optimization control of hybrid microgrids. His research spans critical areas such as grid integration of large-scale renewable energy, digital twin-based optimization for HVDC transmission, and artificial intelligence (AI) in HVDC systems.

Research Interests 🔍

Dr. Deng’s primary research interests revolve around the application of power electronic technology in renewable energy systems, with a specific focus on wind energy. His expertise covers:

  • Modular Multilevel Converters (MMCs): A critical technology for HVDC and flexible AC transmission systems.
  • High-voltage direct current (HVDC) systems: Leveraging power electronics to enable efficient long-distance power transmission.
  • DC grid control: Essential for the future of DC-based renewable energy networks.
  • DFIG/PMSG-based wind turbine control: Key for optimizing performance in wind farms.

His research contributes to increasing the efficiency and reliability of renewable energy systems, making him a prominent thought leader in the development of sustainable power solutions.

Academic Background 🎓

Dr. Deng’s distinguished academic journey began with a Bachelor’s degree in Electrical Engineering and Automation from the China University of Mining and Technology (CUMT) in 2005. He then pursued a Master’s degree in Electrical Engineering at Shanghai Jiao Tong University (SJTU), graduating in 2008. Dr. Deng completed his PhD in Energy Technology at the prestigious Aalborg University (AAU), Denmark, in 2012, specializing in power electronics for energy systems. His international education has provided him with a comprehensive and global perspective on the challenges and advancements in electrical engineering and renewable energy.

Scholarships and Awards 🏅

Throughout his career, Dr. Deng has received numerous scholarships and awards in recognition of his contributions to power electronics and renewable energy technology. His innovative research on HVDC systems and modular multilevel converters has earned him accolades from prestigious bodies like the National Natural Science Foundation of China and Jiangsu Key Laboratory. Dr. Deng’s leadership in pioneering technologies places him as a contender for top honors in the field.

Bioinformatics and Renewable Energy 🌿

Dr. Deng integrates bioinformatics principles into his work on renewable energy systems, particularly in the optimization of grid control and fault diagnosis in HVDC systems. His ability to blend data-driven methodologies with traditional engineering principles showcases his innovative approach to addressing modern energy challenges.

Professional Associations 🤝

Dr. Deng is an active member of several professional associations within the electrical engineering and renewable energy communities. His participation in these organizations not only helps him stay updated with the latest advancements but also provides a platform for collaboration with other experts. Through these memberships, he continually contributes to shaping the future of energy technologies.

Training & Workshops 🎓

Dr. Deng has been involved in a number of training programs and workshops, where he shares his expertise on power electronics and renewable energy integration. His training sessions often focus on practical applications of technologies like modular multilevel converters and HVDC systems, offering participants the opportunity to gain hands-on experience.

Oral Presentations 🎤

Dr. Deng has delivered numerous oral presentations at international conferences, showcasing his work in renewable energy and power electronics. His presentations have highlighted innovations in fault-tolerant control, energy-efficient systems, and hybrid microgrid optimization, cementing his reputation as a leading voice in the field.

Tasks Completed as a Researcher 🛠️

As a Principal Investigator (PI), Dr. Deng has successfully completed several high-profile research projects. His work on artificial intelligence-driven HVDC systems, fault diagnosis, and tolerant control for HVDC transmission systems has had significant implications for both academia and industry. Dr. Deng’s leadership in these projects has positioned him as a driving force in the advancement of energy technologies.

Success Factors 🌟

Dr. Deng’s success can be attributed to his ability to integrate multidisciplinary approaches, combining power electronics, renewable energy technologies, and AI. His global experience and forward-thinking research allow him to develop solutions that are both innovative and practical, ensuring a sustainable future for power systems.

Publications & Laboratory Experience 🧑‍🔬

Dr. Deng’s extensive publication record showcases his deep expertise in power electronics and renewable energy. His laboratory experience with cutting-edge technologies like MMCs and HVDC systems enables him to conduct experimental research that directly contributes to the development of real-world applications. His work on improving energy efficiency and reliability through bio-material applications and smart grid technologies further solidifies his standing as a top researcher.

📖Publications:

Paper Title: High-performance optical dialogue for power electronic system

  • Authors: Lin, D., Deng, F., Hua, W., Cheng, M., Wang, Z.
  • Journal: Applied Energy
  • Year: 2024

Paper Title: Design and optimization of high torque density flux modulated multi-winding permanent magnet machines for electric vehicles

  • Authors: Wang, S., Zhang, J., Deng, F.
  • Journal: Energy
  • Year: 2024

Paper Title: PLPR-Based Predictive Control for LCL-Filtered Voltage Source Inverters

  • Authors: Yin, Z., Deng, F., Ghanem, A., Kaddah, S.S., Abulanwar, S.
  • Journal: IEEE Transactions on Power Electronics
  • Year: 2024

Paper Title: Grounded Thyristor Loop-Based Hybrid MMCs for Valve-Side Single-Phase-to-Ground Faults in Bipolar HVdc Systems

  • Authors: Li, H., Deng, F., Tian, J., Li, G., Lin, J.
  • Journal: IEEE Transactions on Power Electronics
  • Year: 2024

Paper Title: A Capacitance Monitoring Strategy Based on Offset Error Compensation for Modular Multilevel Converters

  • Authors: Jiang, H., Deng, F., Li, H., Lu, Y., Li, G.
  • Journal: Energies
  • Year: 2024