Yan Zhang | Materials Science | Best Researcher Award

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Prof. Yan Zhang | Materials Science | Best Researcher Award

Dr. Zhang Yan is an Associate Professor at the School of Chemistry, Tiangong University, specializing in functional polymer materials. His research focuses on polymer hydrogels, deep eutectic solvents, 3D printing, and integrated electronic devices. With a strong academic background from Tianjin University and Nankai University, he has published extensively in high-impact journals, including Nature Communications, Science Advances, Advanced Materials, and Nano Letters. He has also secured multiple research grants from the National Natural Science Foundation of China and Hebei Provincial Natural Science Foundation. In addition to his academic achievements, he actively contributes to the scientific community as a reviewer for prestigious journals and a member of professional societies. His work significantly advances the development of polymer-based materials for energy storage and biomedical applications.

Professional Profile

Education

  • Ph.D. in Polymer Chemistry and Physics, Nankai University (2019–2022), supervised by Prof. Zhang Yongjun
  • M.Sc. in Materials Engineering (Polymer Materials), Tianjin University (2016–2019), supervised by Prof. Xu Xinhua
  • B.Sc. in Materials Science and Engineering (Polymer Materials), Tianjin University (2011–2015)

Professional Experience

  • Associate Professor, Tiangong University, School of Chemistry (2023–Present)
  • Research Assistant, Nankai University, Key Laboratory of Functional Polymer Materials (2019–2023)
  • Laboratory Technician, Tianjin Borda Technology Development Center (2015–2016)

Research Interests

Dr. Zhang’s research interests include polymer hydrogels, deep eutectic solvents, 3D printing of polymer-based materials, and their applications in energy storage, sensors, and biomedical devices. He focuses on the synthesis and structural design of functional polymer materials with tailored mechanical and electronic properties. His work explores novel fabrication methods, such as direct ink writing (DIW) 3D printing, to develop advanced materials with high performance and scalability.

Research Skills

Dr. Zhang possesses expertise in polymer synthesis, hydrogel fabrication, 3D printing technologies, electrochemical analysis, and structural characterization. He is proficient in advanced analytical techniques such as scanning electron microscopy (SEM), atomic force microscopy (AFM), X-ray diffraction (XRD), and rheological testing. His skills extend to the design of smart polymer materials for energy and biomedical applications.

Awards and Honors

  • Recipient of the “Tiangong Hundred Talents” Research Start-up Fund
  • Principal Investigator of multiple research grants from NSFC and Hebei Science Foundation
  • One of his papers recognized as an ESI Highly Cited Paper
  • Active member of the Chinese Chemical Society and Chinese Materials Society

Conclusion

Dr. Zhang Yan is a dedicated researcher in functional polymer materials, with significant contributions to hydrogels, 3D printing, and energy storage applications. His extensive publication record, research funding, and involvement in scientific societies establish him as a leading figure in his field. His work has the potential to impact material science, particularly in the development of next-generation electronic and biomedical materials.

Publication Top Notes

  1. “Multi-scale pore structured porous carbon nanofiber with light-limited domains for highly efficient photothermal membrane distillation”

    • Authors: Yan Zhang, Jiali Shi, Jingge Ju, Yanfei Chen, Jiacheng Han, Jingwei Xie, Guomin Zhao, Weimin Kang
    • Year: 2025
    • Citations: 2

  2. “Identification of a Potent and Selective CDK9 Degrader as a Targeted Therapeutic Option for the Treatment of Small-Cell Lung Cancer”

    • Authors: Yubo Wang, Mengmeng Wang, Kaichao Yang, Shuangwei Liu, Guang Yang
    • Year: 2025

  3. “Ligand Effect of PdRu on Pt-Enriched Surface for Glucose Complete Electro-Oxidation to Carbon Dioxide and Abiotic Direct Glucose Fuel Cells”

    • Authors: Yichi Guan, Dezhi Su, Yan Zhang, Xijun Liu, Jia He
    • Year: 2025

  4. “Enhancing the efficiency of CZTSSe solar cells via binary solvent induced microstructure regulation”

    • Authors: Sijie Ge, Xuanzhi He, Qianli Zhang, Yan Zhang, Xianzhong Lin
    • Year: 2025

  5. “Experimental and Theoretical Investigations of Solvent Polarity Effect on ESIPT Mechanism in 4′-N,N-diethylamino-3-hydroxybenzoflavone”

    • Authors: Yanglin Jiang, Mingqing Chen, Min Liang, Peng Wang, Jianping Zhang
    • Year: 2025
    • Citations: 1

  6. “Nonmetallic catalysts with high activity and selectivity for the electrocatalytic reduction of CO₂ to CO”

    • Authors: Yingfei Ma, Guodong Sun, Jiangyi Shi, Kaiyang Zhao, Qihuan Lei
    • Year: 2025

  7. “Pure Zwitterionic Hydrogel with Mechanical Robustness and Dynamic Tunability Enabled by Synergistic Non-Covalent Interactions”

    • Authors: Xiaohui Li, Yu Wu, Mengdi Wu, Tengling Wu, Hui Gao
    • Year: 2024
    • Citations: 5

  8. “Construction of PTFE/PI-PI/PANI-PA composite nanofibrous membrane for efficient photothermal membrane distillation and VOCs interception”

    • Authors: Jingge Ju, Jun Yu, Tiantian Zhang, Ying Sun, Weimin Kang
    • Year: 2024
    • Citations: 1

  9. “Enhancing the permeability and selectivity of graphene oxide membrane through polyhedral oligomeric silsesquioxane intercalation for textile wastewater treatment”

    • Authors: Yingxian Wang, Yan Zhang, Hongfen Zuo, Genghao Gong, Yunxia Hu
    • Year: 2024
    • Citations: 2

  10. “In Situ Cu Nanoparticle Deposition on a Graphite Felt Cathode Enabling Diverse Electrochemical Oxidative Functionalization Cyclization of Alkynes”

    • Authors: Feng Zhang, Yan Zhang, Weixing Chang, Lingyan Liu, Jing Li
    • Year: 2024
    • Citations: 1

 

XIYA YANG | Materials Science | Women Researcher Award

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Prof. XIYA YANG | Materials Science | Women Researcher Award

Associate Professor at Jinan University, China

Dr. Xiya Yang is an Associate Professor at the Institute of New Energy Technology, College of Physics & Optoelectronic Engineering, Jinan University. With a solid academic foundation and over a decade of experience in cutting-edge research, she has made significant strides in energy harvesting and self-powered sensing systems. Her work focuses on integrating triboelectric, photovoltaic, and other hybrid effects to address critical challenges in sustainable energy and Internet of Things (IoT) technologies. Dr. Yang has been recognized with numerous prestigious awards and has a robust publication record in high-impact journals, reflecting her dedication and innovation. She is also a passionate educator, mentoring students to achieve excellence in research and competitions. Dr. Yang is committed to advancing interdisciplinary research, fostering innovation, and contributing to the global energy sustainability agenda.

Professional Profile

Education

Dr. Xiya Yang holds a Ph.D. in Materials Science and Engineering from the City University of Hong Kong, which she completed in 2017. Prior to that, she earned a Master’s degree with Distinction in Energy and Environmental Engineering from the same institution in 2013. Her undergraduate studies were completed at Shandong University of Science and Technology, where she graduated as an Outstanding Graduate in Automation Engineering in 2012. This rigorous academic background has provided her with a strong foundation in energy systems and advanced materials, setting the stage for her impactful research career.

Professional Experience

Dr. Yang currently serves as an Associate Professor at the College of Physics & Optoelectronic Engineering, Jinan University, a role she has held since January 2024. Prior to this, she was an Associate Professor at the College of Information Science and Technology at the same university from 2018 to 2023. She also completed a postdoctoral fellowship at the School of Energy and Environment, City University of Hong Kong, from 2017 to 2018. Her professional experience spans teaching, research, and mentoring, with a focus on sustainable energy technologies and innovation. Dr. Yang’s contributions to the academic and research community have been instrumental in advancing knowledge in her field.

Research Interests

Dr. Yang’s research interests lie at the intersection of energy sustainability and advanced materials. Her primary focus is on self-powered micro/nano electromechanical systems and hybrid energy harvesting technologies. She explores innovative solutions to harness solar, wave, wind, rain, and human kinetic energy for self-powered sensing systems. Additionally, she delves into the coupling effects of piezoelectric, triboelectric, electromagnetic, and photovoltaic mechanisms to optimize energy efficiency. Dr. Yang is also interested in passive and active power management designs, contributing to the development of next-generation IoT systems. Her interdisciplinary approach aims to address global challenges in energy sustainability and smart sensing.

Research Skills

Dr. Yang possesses a diverse skill set in experimental design, advanced materials characterization, and energy systems integration. She is proficient in developing hybrid nanogenerators and triboelectric sensors, emphasizing coupling effects for enhanced energy efficiency. Her expertise includes designing and fabricating self-powered sensing systems, as well as optimizing power management strategies. Dr. Yang has extensive experience in project management, having served as the principal investigator for multiple national and provincial research grants. Her ability to mentor students and lead interdisciplinary teams further highlights her capabilities in both research and education.

Awards and Honors

Dr. Yang’s contributions to research and education have been recognized with numerous awards. She received the 2022 Guangdong Natural Science Award (Second Prize) and was named a Jinan Outstanding Young Scholar in 2021. Other accolades include the Jinan University “Major Achievement Contribution Award” (2019-2020) and the Young Talents distinction in 2018. She has also earned recognition for her teaching excellence, including the Third Prize in Jinan University’s New Teachers Teaching Competition. Her achievements reflect her dedication to advancing both academic excellence and impactful research.

Conclusion

Dr. Xiya Yang’s impressive academic background, extensive professional experience, and groundbreaking research contributions make her a distinguished candidate for the Best Researcher Award. Her work in hybrid energy harvesting and self-powered sensing systems addresses critical global challenges, demonstrating both innovation and impact. Through her dedication to mentorship and interdisciplinary collaboration, she has fostered the next generation of researchers and advanced knowledge in sustainable energy technologies. Dr. Yang’s achievements and ongoing contributions position her as a leading figure in her field, deserving of this prestigious recognition.

Publication Top Notes

  1. Machine learning-assisted wearable triboelectric-electromagnetic sensor for monitoring human motion feature
    Authors: Zhao, L., Jia, S., Fang, C., Hu, Y., Yang, X.
    Year: 2025
  2. Columnar Macrocyclic Molecule Tailored Grain Cage to Stabilize Inorganic Perovskite Solar Cells with Suppressed Halide Segregation
    Authors: Liu, N., Duan, J., Li, H., Yang, X., Tang, Q.
    Year: 2024
    Citations: 2
  3. A Compact-Sized Fully Self-Powered Wireless Flowmeter Based on Triboelectric Discharge
    Authors: Wan, D., Xia, X., Wang, H., Yang, X., Zi, Y.
    Year: 2024
    Citations: 2
  4. Suppressing charge recombination by synergistic effect of ferromagnetic dual-tribolayer for high output triboelectric nanogenerator
    Authors: Liu, L., Li, J., Tian, Z., Yang, X., Ou-Yang, W.
    Year: 2024
    Citations: 7
  5. Conductive dual-network hydrogel-based multifunctional triboelectric nanogenerator for temperature and pressure distribution sensing
    Authors: Zhao, L., Fang, C., Qin, B., Yang, X., Poechmueller, P.
    Year: 2024
    Citations: 6
  6. Biomimetic bimodal haptic perception using triboelectric effect
    Authors: He, S., Dai, J., Wan, D., Xia, X., Zi, Y.
    Year: 2024
    Citations: 12
  7. Reinforced SnO2 tensile-strength and “buffer-spring” interfaces for efficient inorganic perovskite solar cells
    Authors: Zhao, Y., Gao, L., Wang, Q., Duan, J., Tang, Q.
    Year: 2024
    Citations: 8
  8. Triboelectric gait sensing analysis system for self-powered IoT-based human motion monitoring
    Authors: Zhao, L., Guo, X., Pan, Y., Poechmueller, P., Yang, X.
    Year: 2024
    Citations: 17
  9. Electrostatic-driven self-assembled chitin nanocrystals (ChNCs)/MXene films for triboelectric nanogenerator
    Authors: He, Y., Zhao, L., Guo, X., Luo, B., Liu, M.
    Year: 2024
    Citations: 6
  10. CsPbBr3 nanocrystals as electron and ion “Reservoirs” to induce energy transfer and grain reconstruction for efficient carbon-based inorganic perovskite solar cells
    Authors: Duan, J., Zhang, C., Liu, Y., Yang, X., Tang, Q.
    Year: 2024
    Citations: 4

 

 

 

 

 

Parveen Saini | Materials Science | Best Researcher Award

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Dr. Parveen Saini | Materials Science | Best Researcher Award 

Sr. Principal Scientist and Professor AcSIR, at CSIR National Physical Laboratory New Delhi, India.

Dr. Parveen Saini is a Sr. Principal Scientist at the CSIR-National Physical Laboratory in New Delhi, India. He leads the Conjugated Polymers, Graphene Technology, and Waste Management Lab within the Photovoltaic Metrology Section, Advanced Materials and Devices Metrology Division. With a strong academic background in polymer science and material science, Dr. Saini has developed innovative research in areas including conductive polymers, graphene technology, and sustainable waste management solutions ♻️. His contributions have earned him recognition in engineering sciences, particularly for developing advanced materials with applications in EMI shielding, sustainable coatings, and nanotechnology. His work reflects a commitment to both industrial innovation and environmental sustainability 🌍, and he continues to guide research at CSIR-NPL, with his findings being highly influential in both scientific and industrial domains.

Profile

Education 🎓

Dr. Saini began his academic journey at Delhi College of Engineering, University of Delhi, where he earned his B.Tech. in Polymer Science and Chemical Technology in 2002. Driven by his interest in materials science, he went on to complete his Ph.D. at the Indian Institute of Technology (IIT), Delhi, in 2012, specializing in conducting polymers. His Ph.D. research provided critical insights into material properties that have since informed his subsequent work in advanced polymeric and graphene-based technologies. This robust educational foundation equipped Dr. Saini with the knowledge and skills to lead cutting-edge research in material science, establishing him as a prominent figure in both the academic and industrial fields of polymer and nanotechnology.

Experience 💼

Dr. Saini’s professional journey began as a Graduate Engineer Trainee at Shriram Institute for Industrial Research, where he worked in the Rubber, Plastics, and Textile Lab. In 2004, he joined the CSIR-National Physical Laboratory, where he quickly advanced through various roles, starting as a Junior Scientist in the Polymeric & Soft Materials Section, then progressing to Scientist and Senior Scientist in the Materials Physics and Engineering Division. Since 2021, he has served as Sr. Principal Scientist, overseeing the Advanced Materials and Devices Metrology Division. Over his extensive career, Dr. Saini has been at the forefront of research in materials science, pioneering techniques in polymer development, waste management, and graphene technology for enhanced industrial applications.

Research Interests 🔍

Dr. Saini’s research is centered on the development of advanced materials, particularly in the realms of conjugated polymers, graphene technology, and waste management. His interests span the synthesis and application of conductive polymers for electromagnetic interference (EMI) shielding, sustainable coatings for corrosion resistance, and recycling methods for waste solar modules. Dr. Saini also explores innovative uses of graphene for energy storage and environmental sustainability, aiming to create materials that address industrial needs while promoting eco-friendly practices. His work on nanocomposites and sustainable materials highlights a commitment to improving material resilience and reducing environmental impact, making significant contributions to both industrial technology and green innovation 🌱.

Awards 🏆

In 2013, Dr. Parveen Saini received the prestigious CSIR Young Scientist Award in the area of Engineering Sciences, recognizing his pioneering contributions to material sciences. This honor reflects his influential work in developing novel conductive polymers and graphene-based materials with applications in EMI shielding and sustainable coatings. Dr. Saini’s award-winning research is known for its practical industrial applications, particularly in enhancing material durability and eco-friendliness. His accomplishments in the field have positioned him as a leading figure in advanced materials science, with his innovative approaches influencing the direction of polymer research and development in India and globally.

Publications 📚

Dr. Saini has authored numerous influential papers in high-impact scientific journals. Here are some of his notable publications:

    • Enhanced Anticorrosive Behavior of Waste Tea Bags Derived Nanocrystalline Cellulose Incorporated Polyaniline for Protection of Mild Steel Under Aggressive Saline Environment
      • Journal: Transactions of the Indian Institute of Metals
      • Year: 2024
      • Citations: 0
      • Summary: This study investigates the anticorrosive properties of polyaniline (PANI) composites incorporating nanocrystalline cellulose (NCC) derived from waste tea bags. The material demonstrates significant potential for protecting mild steel in saline conditions.
    • Extraction and Analysis of Back-Sheet Layer from Waste Silicon Solar Modules
      • Journal: Chemical Reports
      • Year: 2022
      • Citations: 1
      • Summary: This paper focuses on the extraction and analysis of back-sheet layers from waste silicon solar modules, addressing waste management and material recovery in photovoltaic industries.
    • Fe3O4/Graphene-Oxide/Chitosan Hybrid Aerogel Based High-Performance Supercapacitor: Effect of Aqueous Electrolytes on Storage Capacity & Cell Stability
      • Journal: Journal of Energy Storage
      • Year: 2022
      • Citations: 28
      • Summary: This research explores a Fe3O4/graphene oxide/chitosan hybrid aerogel for use in supercapacitors, emphasizing how aqueous electrolytes impact storage capacity and cell stability.
    • Historical Review of Advanced Materials for Electromagnetic Interference (EMI) Shielding: Conjugated Polymers, Carbon Nanotubes, Graphene-Based Composites
      • Journal: Indian Journal of Pure and Applied Physics
      • Year: 2019
      • Citations: 19
      • Summary: A comprehensive review of materials used in electromagnetic interference (EMI) shielding, particularly focusing on conjugated polymers, carbon nanotubes, and graphene composites.
    • Excellent Electromagnetic Interference Shielding and Mechanical Properties of High-Loading Carbon-Nanotubes/Polymer Composites Designed Using Melt Recirculation Equipped Twin-Screw Extruder
      • Journal: Carbon
      • Year: 2015
      • Citations: 192
      • Summary: This study presents a high-performance EMI shielding material developed using carbon nanotube/polymer composites. The twin-screw extruder technique enhances both mechanical properties and shielding effectiveness.

Conclusion

Dr. Parveen Saini is a highly accomplished scientist with substantial contributions in materials science and engineering, particularly in the fields of conjugated polymers, graphene, and waste management technologies. His portfolio of publications, patents, and professional achievements makes him an excellent candidate for the Best Researcher Award. His innovative work and societal impact through SSR initiatives reflect his commitment not only to scientific excellence but also to addressing critical societal needs. Expanding international collaborations and exploring further sustainable materials applications could enhance his already impressive career trajectory.