Lili Wang | Environmental Conservation | Best Researcher Award

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Assoc. Prof. Dr. Lili Wang | Environmental Conservation | Best Researcher Award

Associate Professor | Zhejiang Sci-tech University | China

Assoc. Prof. Dr. Lili Wang is a highly accomplished scholar and researcher specializing in textile chemistry, dyeing, and finishing engineering. Serving as an Associate Professor at Zhejiang Sci-Tech University, she has established herself as a leading figure in the development of sustainable textile technologies. Her primary research focuses on ecological dyeing methods and the functionalization of natural polymers, with an emphasis on reducing environmental impact while enhancing textile performance. Assoc. Prof. Dr. Lili Wang has successfully led and contributed to multiple nationally and provincially funded research projects, particularly in the field of digital spray dyeing technology for polyester fabrics, which is recognized for its potential in energy conservation and carbon reduction. She has further demonstrated her innovative capacity by securing numerous invention patents, reflecting her ability to translate scientific research into practical applications. Her academic training, combined with postdoctoral experience in industry, enables her to integrate theoretical research with real-world textile solutions. Beyond her technical expertise, Assoc. Prof. Dr. Lili Wang is dedicated to advancing the global textile industry toward greener, more efficient practices. Her contributions highlight the importance of bridging academia and industry, making her an influential voice in shaping the future of sustainable textile science and engineering.

Publication Profile

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Education

Assoc. Prof. Dr. Lili Wang has built a strong academic foundation through a comprehensive educational journey across some of China’s leading institutions in textiles, chemistry, and materials science. She began her studies in materials science and engineering at the undergraduate level, where she gained fundamental knowledge in textile materials, fiber science, and engineering principles. This early academic training sparked her interest in exploring the chemistry of textiles and their applications in innovative and sustainable processes. Motivated to advance her expertise, she pursued graduate studies in chemistry, chemical engineering and biotechnology, where she deepened her understanding of advanced chemical reactions, polymer science, and their relevance to textile dyeing and finishing. Her doctoral training focused on the intersection of chemistry and textile applications, equipping her with the ability to conduct independent research and develop novel approaches to textile processing. To further strengthen her research profile, Assoc. Prof. Dr. Lili Wang undertook postdoctoral research in collaboration with industry, where she explored practical solutions for ecological dyeing and finishing technologies. This unique combination of academic rigor and industrial research experience has provided her with both theoretical depth and applied skills, enabling her to contribute meaningfully to advancing sustainable textile science and engineering.

Professional Experience

Assoc. Prof. Dr. Lili Wang has cultivated a career that bridges academic research, industrial application, and innovation in textile chemistry and ecological dyeing. At Zhejiang Sci-Tech University, she serves as an Associate Professor in the College of Textiles Science and Engineering, where she is actively engaged in teaching, research, and student mentorship. Her academic role involves guiding research in textile chemistry and dyeing, supervising projects focused on sustainable textile technologies, and fostering interdisciplinary collaboration. In addition to her university work, she has gained valuable industrial experience through postdoctoral research at Saintyear Holding Group Co., Ltd., where she applied her scientific expertise to real-world challenges in ecological dyeing and finishing. This dual experience has allowed her to integrate theoretical knowledge with practical solutions, ensuring that her research directly contributes to industrial innovation. Assoc. Prof. Dr. Lili Wang has successfully led and participated in major research projects funded by national and provincial foundations, focusing on energy-saving and eco-friendly textile processes. Her achievements include an impressive record of granted invention patents, reflecting her ability to transform scientific ideas into applied technologies. Through her professional journey, she has consistently demonstrated leadership, innovation, and a strong commitment to advancing sustainable practices in the textile industry.

Research Interest

Assoc. Prof. Dr. Lili Wang’s research interests are centered on advancing sustainable technologies in textile chemistry, dyeing, and finishing. She is particularly focused on developing new ecological dyeing methods that reduce water consumption, minimize energy use, and lower the carbon footprint of textile processing. One of her major areas of interest lies in digital spray dyeing for polyester fabrics, a cutting-edge approach recognized for its efficiency and environmental benefits. In addition, she explores the functionalization of natural polymers, aiming to create textiles with enhanced properties such as durability, antibacterial performance, and eco-compatibility. By integrating renewable resources with modern textile finishing techniques, her work contributes to the development of high-value and sustainable textile products. Assoc. Prof. Dr. Lili Wang also investigates interdisciplinary applications of polymer science, chemical engineering, and environmental chemistry to address industry challenges. Her research reflects a balance between innovation and responsibility, ensuring that technological advancements align with global sustainability goals. Through her projects, she seeks to create practical solutions that can be widely applied in the textile industry, ultimately promoting greener production models and contributing to the transformation of the global textile sector toward more sustainable and environmentally friendly practices.

Research Skills

Assoc. Prof. Dr. Lili Wang has developed a comprehensive set of research skills that combine advanced chemical knowledge, materials engineering expertise, and applied textile innovation. She is highly skilled in the design and optimization of textile dyeing processes with a focus on energy efficiency, water conservation, and environmental protection. Her technical expertise includes digital spray dyeing, ecological finishing methods, and the modification of polymers to enhance textile functionality. She is proficient in applying advanced analytical methods to evaluate dyeing performance, textile durability, and eco-friendly properties of treated fabrics. Assoc. Prof. Dr. Lili Wang also has strong project management skills, having successfully led and coordinated multiple national and provincial research projects funded by prestigious scientific foundations. Her ability to translate laboratory results into scalable industrial applications is evident in her portfolio of granted patents. In addition, she demonstrates expertise in interdisciplinary collaboration, bringing together principles of chemistry, chemical engineering, and textile science to create innovative solutions. Her research skills extend to experimental design, data analysis, and innovation development, ensuring that her work not only advances theoretical knowledge but also contributes practical technologies for the textile industry. This unique combination positions her as a versatile and impactful researcher in sustainable textile science.

Awards and Honors

Assoc. Prof. Dr. Lili Wang has received recognition for her outstanding contributions to the advancement of sustainable textile technologies. Her research achievements have been supported by major national and provincial funding bodies, reflecting the scientific significance and societal value of her work. She has secured competitive grants from the National Natural Science Foundation of China, the China Postdoctoral Science Foundation, and the Zhejiang Provincial Natural Science Foundation, demonstrating her strong research leadership and innovation capacity. Beyond funding recognition, her creativity and applied research outcomes are further highlighted by her impressive record of granted invention patents. These patents stand as a testament to her ability to translate theoretical knowledge into impactful technologies that address industrial needs. Her recognition is not limited to academic circles but extends to industrial collaborations, where her research outcomes contribute directly to advancing ecological dyeing and functional finishing practices. Assoc. Prof. Dr. Lili Wang’s honors reflect her commitment to developing environmentally responsible textile processes and her vision of promoting green innovation within the industry. These achievements underscore her role as a respected researcher, innovator, and academic leader, dedicated to shaping the future of textile engineering with sustainability and scientific excellence at the forefront.

Author Metrics

  • Total Documents Published: 60+

  • Total Citations: 2,740+

  • h-index: 30

  • i10-index: 60

These metrics reflect the significant academic impact and influence of Assoc. Prof. Dr. Lili Wang’s research in textile chemistry, ecological dyeing technologies, and polymer functionalization. Her work is widely cited in international journals, demonstrating both the quality and relevance of her scientific contributions to the global research community.

Publications Top Notes

1. Urea-free reactive printing of viscose fabric with high color performance for cleaner production
Year: 2021
Citations: 15

2. A novel quaternary ammonium triethanolamine modified polyester polyether for rapid wetting and penetration pretreatment for digital inkjet dyeing of polyester fabric
Year: 2025
Citations: 6

3. Organofluorosilicon modified polyacrylate with the unidirectional migration promotion of disperse dyes toward polyester fabric for wash-Free digital inkjet dyeing
Year: 2024
Citations: 6

4. Ecofriendly and durable flame-retardant cotton fabric based on alkyl/N/B/P modified meglumine with high efficiency
Year: 2023
Citations: 12

5. Ecofriendly dual-function cotton fabric with antibacterial and anti-adhesion properties based on modified natural materials
Year: 2024
Citations: 3

Conclusion

Assoc. Prof. Dr. Lili Wang has established herself as a dynamic academic and researcher whose career reflects the integration of scientific excellence, practical innovation, and environmental responsibility. With her strong foundation in chemistry, biotechnology, and materials science, she has advanced into a leading role in textile chemistry and sustainable dyeing technologies. Her focus on ecological dyeing and functionalization of natural polymers demonstrates her commitment to addressing pressing global challenges in textile production, such as energy consumption, water conservation, and pollution reduction. Through her leadership in nationally and provincially funded projects, she has contributed innovative solutions that align academic research with industrial applications, reinforcing the importance of sustainability in modern textiles. Her impressive portfolio of invention patents further illustrates her ability to translate research outcomes into practical technologies that benefit both the industry and society. Beyond technical contributions, Assoc. Prof. Dr. Lili Wang plays a vital role as an educator and mentor, inspiring the next generation of researchers in textile science. Her career path exemplifies how academic rigor, interdisciplinary collaboration, and a vision for sustainability can converge to shape the future of textile engineering. With her expertise and dedication, Assoc. Prof. Dr. Lili Wang continues to make meaningful contributions toward building a greener and more innovative textile industry.

 

Peiyuan Li | Renewable Energy | Best Researcher Award

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Mr. Peiyuan Li | Renewable Energy | Best Researcher Award

Doctor of Philosophy (Ph.D.) at East China University of Science and Technology | China

Mr. Peiyuan Li is a dedicated and innovative Ph.D. candidate in Polymer Chemistry and Physics at the East China University of Science and Technology, Shanghai, China. His research expertise lies in the development of advanced phase change materials (PCMs) with applications in battery thermal management. With a strong background in materials science and engineering, Mr. Li has made significant strides in integrating nanomaterials and polymers to enhance thermal regulation performance. His most recent publication, titled “Reduced graphene oxide/calcium alginate/polyethylene glycol composite phase change material with double-network structure for enhanced photothermal conversion”, published in the Journal of Energy Storage, demonstrates his ability to engineer composite PCMs with superior energy storage and heat dissipation properties. Mr. Li’s work not only addresses a critical challenge in sustainable energy storage but also offers scalable solutions for real-world thermal management systems. In addition to his research achievements, he is actively contributing to interdisciplinary collaborations and has a growing citation record. Mr. Li continues to strive for academic excellence and technological innovation with a vision to contribute to the development of safer, more efficient energy storage systems. His academic rigor and commitment to impactful research establish him as a promising emerging scholar in the field of energy materials.

Publication Profile

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Education

Mr. Peiyuan Li is currently pursuing his Doctor of Philosophy (Ph.D.) in Polymer Chemistry and Physics at the prestigious East China University of Science and Technology (ECUST), located in Shanghai, China. This institution is known for its academic rigor and cutting-edge research in chemical and materials sciences. Mr. Li’s doctoral research focuses on the synthesis and application of advanced composite phase change materials (PCMs), emphasizing their use in battery thermal management systems. His academic training at ECUST combines fundamental knowledge of polymer chemistry with applied research in nanocomposites and energy storage materials. Throughout his doctoral studies, he has engaged in multidisciplinary coursework and laboratory-based research, strengthening his expertise in organic/inorganic hybrid materials, thermal conductivity, and energy system design. Mr. Li has demonstrated strong academic performance and has been involved in scholarly communication through publications and academic conferences. Prior to his Ph.D., he received foundational education in chemistry and materials science, laying the groundwork for his current specialization. His academic path reflects a clear focus on addressing real-world energy challenges through scientific research, and his educational background has equipped him with both theoretical and practical skills to innovate in the field of energy materials and thermal regulation technologies.

Professional Experience

As a Ph.D. candidate at the East China University of Science and Technology, Mr. Peiyuan Li has been actively engaged in cutting-edge research projects in the field of polymer-based energy materials since the beginning of his doctoral studies. His professional experience primarily revolves around laboratory research, scientific writing, and academic collaboration. He has participated in both independent and team-based projects focused on the development and characterization of advanced phase change materials (PCMs) for thermal management in lithium-ion batteries. His hands-on experience includes material synthesis, nanocomposite fabrication, thermal analysis (e.g., DSC, TGA), and photothermal performance evaluation. Mr. Li also contributes to the preparation of technical reports and scientific manuscripts, exemplified by his recent publication in the Journal of Energy Storage. He regularly collaborates with interdisciplinary teams of chemists, materials scientists, and engineers, enhancing the practical application of research findings. Furthermore, he has presented findings at departmental seminars and is working toward participation in international conferences. Through these experiences, Mr. Li has developed strong skills in experimental design, data analysis, and academic communication. His current role continues to evolve as he progresses in his research and seeks collaborative opportunities to translate academic insights into real-world innovations.

Research Interest

Mr. Peiyuan Li’s research interests lie at the intersection of polymer chemistry, nanomaterials, and energy systems, with a particular focus on the development of phase change materials (PCMs) for battery thermal management. His work is driven by the urgent need for improved energy efficiency and safety in energy storage technologies, especially in the context of electric vehicles and portable electronics. Mr. Li is deeply interested in the design and optimization of composite materials that exhibit enhanced thermal conductivity, stability, and energy storage capacity. He explores the integration of nanostructured materials such as reduced graphene oxide and bio-derived polymers to engineer multifunctional PCMs with superior photothermal and thermal regulatory properties. Additionally, his interest extends to the study of polymer networks, hydrogel composites, and sustainable material systems that contribute to green energy solutions. Mr. Li is also keen on investigating heat transfer mechanisms in confined structures and the scalability of lab-developed PCMs for industrial applications. His research aims not only to solve technical limitations in battery safety and performance but also to contribute to broader innovations in thermal management systems and energy-saving materials for smart devices and next-generation storage technologies.

Research Skills

Mr. Peiyuan Li possesses a comprehensive set of research skills essential for the design, development, and evaluation of advanced energy materials. His core competencies include synthesis of composite phase change materials (PCMs), polymer crosslinking, and nanomaterial integration, specifically using reduced graphene oxide and bio-polymers like calcium alginate. He is proficient in thermal and structural characterization techniques such as Differential Scanning Calorimetry (DSC), Thermogravimetric Analysis (TGA), Scanning Electron Microscopy (SEM), and X-ray Diffraction (XRD). In addition to material synthesis, he is skilled in photothermal conversion measurement and performance testing of thermal management systems. Mr. Li also demonstrates expertise in data interpretation and scientific communication, having authored peer-reviewed publications. He is adept in using research software and analytical tools, including Origin, ChemDraw, and MATLAB for data plotting and simulation purposes. Collaborative research and project planning are also part of his skill set, allowing him to contribute effectively to multidisciplinary teams. With a solid foundation in polymer chemistry and physics, he continuously hones his experimental techniques and research methodologies to innovate in the field of energy storage and thermal regulation. His methodological rigor and experimental precision distinguish him as a skilled researcher capable of addressing complex material challenges.

Awards and Honors

While Mr. Peiyuan Li is still in the early stage of his research career as a doctoral candidate, his contributions to energy materials research have already earned recognition within academic circles. His co-authored paper titled “Reduced graphene oxide/calcium alginate/polyethylene glycol composite phase change material with double-network structure for enhanced photothermal conversion” has been published in the prestigious Journal of Energy Storage (Elsevier), marking a significant academic milestone. Although specific awards or formal honors are not yet listed, the quality and impact of his research reflect high academic merit. His work demonstrates innovation in material design and application, aligning well with the goals of various academic award categories such as the Young Scientist Award or Best Research Scholar Award. Mr. Li’s proactive involvement in research and publication activities highlights his dedication to academic excellence. He continues to engage in institutional research initiatives and aims to compete for national and international research fellowships and innovation challenges. As he progresses through his doctoral program, further recognitions, travel grants, and academic awards are anticipated, reflecting his strong potential and commitment to scientific advancement in energy materials and sustainability.

Author Metrics

  • Total Citations: 71+

  • Cited By: 70 documents

  • Total Publications (Indexed): 4

  • h-index: 2

An h-index of 2 means Mr. Peiyuan Li has at least 2 papers that have been cited at least 2 times each.

Publications Top Notes

1. Reduced graphene oxide/calcium alginate/polyethylene glycol composite phase change material with double‑network structure for enhanced photothermal conversion
Year: 2025

2. Crosslinking polyethylene glycol and silica microcapsules composite phase change material with wide heat storage temperature range and shape memory function
Year: 2025

3. Calcium alginate / Polyaniline double network aerogel electrode for compressible and high electrochemical performance integrated supercapacitors
Year: 2024

4. Optimization of electrochemical performance for double network electrically conductive aerogel‑based supercapacitor electrode
Citations: 6
Year: 2023

5. Construction and characterization of highly stretchable ionic conductive hydrogels for flexible sensors with good anti‑freezing performance
Citations: 70
Year: 2023

Conclusion

Mr. Peiyuan Li exemplifies the qualities of a forward-thinking researcher committed to solving critical problems in energy storage and thermal management through advanced materials design. His academic journey at the East China University of Science and Technology has equipped him with strong theoretical knowledge and practical expertise in polymer chemistry and nanocomposite synthesis. His focus on phase change materials tailored for battery thermal management addresses a vital area in the global push for energy-efficient and safe storage systems. Through published research, hands-on experimentation, and multidisciplinary collaboration, Mr. Li has demonstrated his capability to contribute meaningfully to both academic and industrial advancements. His skills in experimental design, thermal analysis, and scientific writing are well-aligned with the demands of cutting-edge materials science research. As he continues his Ph.D. journey, Mr. Li is poised to make further contributions to sustainable energy solutions and novel materials development. His research trajectory suggests a promising future as a scholar and innovator, making him a strong candidate for research awards and recognitions that celebrate scientific excellence, innovation, and real-world impact. He aspires to continue bridging scientific discovery and technological application in the field of energy materials.