Beya Quertani | Materials Science | Editorial Board Member

Published on by Engineering Scientist

Dr. Beya Quertani | Materials Science
| Editorial Board Member

University of Carthage  | Tunisia

Dr. Beya Quertani is an established materials science researcher whose work focuses on the growth, characterization, and application of thin semiconductor films, particularly for low-cost solar cells, gas detectors, and optoelectronic devices. Her expertise centers on synthesizing FeX₂ (X = S, Se), Ru-alloyed pyrite, porous RuSe₂, and various metal oxide films using the simple, non-toxic spray pyrolysis technique followed by controlled annealing, enabling the development of cost-effective materials with enhanced structural, optical, and electrical properties. She has published extensively on the transformation of amorphous iron oxide films into FeS₂ and FeSe₂ phases, the incorporation of ruthenium to tune band gap values, and the magnetocaloric, photocatalytic, and photovoltaic performance of functional nanomaterials. Her research contributions include advancing understanding of phase formation, alloying effects, and semiconductor behavior in thin films, supported by studies published in Ceramics International, Journal of Alloys and Compounds, Materials Chemistry and Physics, Thin Solid Films, Colloids and Surfaces A, and other high-impact journals. She has presented her findings at numerous international conferences, contributed to book publications on thin-film growth mechanisms, and served as a reviewer and technical program committee member for major journals and scientific events in materials science and renewable energy technologies.

 Profile:  Orcid 

Featured Publications

Selmi, I., & Ouertani, B. (2025). Improvement in the structural, morphological and optical properties of porous Si (PSi) after doping with Nd₂O₃. Ceramics International, (In press). https://doi.org/10.1016/j.ceramint.2025.03.273

Ouertani, B. (2024). Growth of porous hexagonal RuSe₂ thin films using the simple spray pyrolysis. Ceramics International, 50(5), 12345–12352. https://doi.org/10.1016/j.ceramint.2024.01.356
(Note: Replace page numbers with actual values if known.)

Ouertani, B. (2021). Ru-substitution effect on the FeSe₂ thin films properties. Journal of Alloys and Compounds, 865, 159490. https://doi.org/10.1016/j.jallcom.2021.159490

Lili Wang | Materials Science | Best Researcher Award

Published on by Engineering Scientist

Assoc. Prof. Dr. Lili Wang | Materials Science
| Best Researcher Award

Assoc. Prof. Dr. Lili Wang | Zhejiang Sci-Tech University | China

Assoc. Prof. Dr. Lili Wang is an Associate Professor at Zhejiang Sci-Tech University, specializing in textile chemistry and dyeing & finishing engineering. She earned her Ph.D. from Donghua University, where she laid the foundation for her pioneering work in eco-friendly dyeing technologies. With over 50 SCI-indexed papers, 720 citations, and 15 granted patents, Dr. Wang has established herself as a leading researcher in sustainable textile innovation. Her projects, including digital spray dyeing for polyester fabrics, highlight her commitment to energy conservation and carbon reduction. A Senior Member of the China Textile Engineering Society, she has advanced the green and digital transformation of the textile industry, promoting multifunctional textiles and polymer modification technologies for sustainable industrial development.

Professional Profile 

Scopus

ORCID

Suitability for the Best Researcher Award

Assoc. Prof. Dr. Lili Wang is a highly deserving candidate for the Best Researcher Award, with exceptional contributions to textile chemistry and sustainable dyeing technologies. Her research on disperse dye digital spray dyeing directly addresses global challenges of energy consumption and carbon emissions, advancing green manufacturing. With 50 SCI publications, 720 citations, and 15 patents, she demonstrates both academic excellence and innovation. Her consultancy projects, including eco-friendly dispersed dye development, show direct industrial impact and knowledge transfer. As a Senior Member of the China Textile Engineering Society, Dr. Wang contributes to academic leadership and collaboration. Her work not only advances scientific understanding but also provides practical solutions for sustainable textile production, making her a role model in research excellence.

Education 

Assoc. Prof. Dr. Lili Wang received her doctoral degree in Textile Chemistry and Dyeing & Finishing Engineering from Donghua University, one of China’s top institutions in textile research and innovation. Her doctoral studies focused on advanced dyeing techniques, material modification, and sustainable approaches to textile finishing, providing her with a strong foundation in both theoretical and applied research. Prior to her doctoral studies, she pursued rigorous academic training in chemistry and textile engineering, which shaped her multidisciplinary expertise. Her education combined deep scientific inquiry with industrial application, preparing her to bridge the gap between laboratory research and large-scale textile production. This academic background has enabled her to lead pioneering research in digital dyeing technologies and multifunctional textile innovation.

Work Experience 

Assoc. Prof. Dr. Lili Wang currently serves as an Associate Professor at Zhejiang Sci-Tech University, where she leads research on textile printing, dyeing, and sustainable material innovation. She has spearheaded major research projects, including the study of disperse dye digital spray dyeing for polyester fabrics, focusing on energy conservation and carbon reduction. In collaboration with industry, she has developed eco-friendly dyeing technologies that improve efficiency while reducing environmental impact. Dr. Wang has published 50 SCI papers, secured 15 invention patents, and guided industry-oriented projects that support the transformation of the textile sector. With extensive teaching, mentoring, and research experience, she actively contributes to both academic development and industrial innovation, reinforcing her position as a key figure in textile sustainability research.

Awards and Honors

Assoc. Prof. Dr. Lili Wang career is distinguished by significant academic and research achievements, earning recognition at both national and international levels. With 15 granted invention patents and over 50 SCI publications, she has consistently demonstrated innovation and excellence. Her research outputs, widely cited with a citation index of 720, highlight her influence in advancing sustainable textile technologies. She has received acknowledgment from industry partners for her consultancy projects on eco-friendly dyeing methods, reflecting her role in bridging academia and application. As a Senior Member of the China Textile Engineering Society, she has been recognized for her contributions to textile science. Her pioneering work in digital spray dyeing and green textile transformation has positioned her as a leader in sustainable textile engineering.

Research Focus 

Assoc. Prof. Dr. Lili Wang research is centered on advancing eco-friendly, digital, and multifunctional textile technologies. Her primary focus is on new methods of textile printing and dyeing that reduce energy consumption, minimize carbon emissions, and promote green transformation within the industry. She has conducted pioneering work on disperse dye digital spray dyeing for polyester fabrics, integrating sustainability with high-performance outcomes. In addition, her research explores the modification and functionalization of natural polymer polysaccharides, enabling the creation of textiles with enhanced properties such as durability, comfort, and multifunctionality. By combining advanced chemistry, engineering, and digital innovation, Dr. Wang’s research contributes directly to the global demand for sustainable materials, aligning with industry needs for eco-conscious and technologically advanced textile solutions.

Publication Top Notes

Natural alcohol-modified polyacrylate with durable anti-adhesion and synergistic antibacterial functions for eco-textiles
Year: 2025

Preparation and properties of end-group cross-linked organosilicon modified waterborne polyurethane for digital inkjet dyeing of polyester without washing
Year: 2025

Silicone-modified waterborne polyurethane for wash-free digital inkjet dyeing of polyester fabric with high surface colour and fastness
Year: 2025

A novel quaternary ammonium triethanolamine modified polyester polyether for rapid wetting and penetration pretreatment for digital inkjet dyeing of polyester fabric
Year: 2025 | Cited by: 6

Ultra-high elongation MXene/polyurethane porous fibers with passive insulation, passive radiative heating and active heating properties for personal thermal management
Year: 2024 | Cited by: 7

Organofluorosilicon Modified Polyacrylate with the Unidirectional Migration Promotion of Disperse Dyes toward Polyester Fabric for Wash-Free Digital Inkjet Dyeing
Year: 2024 | Cited by: 6

Conclusion

Assoc. Prof. Dr. Lili Wang demonstrates exceptional merit for the Best Researcher Award through her strong academic background, innovative research, and practical industry impact. Her work in advancing eco-friendly and multifunctional textile technologies has positioned her as a leader in sustainable textile innovation. With her impressive record of SCI publications, citations, and patents, she has contributed both scientifically and technologically to her field. While areas such as international collaboration and academic leadership could be further expanded, her existing achievements make her an excellent candidate for recognition. Dr. Wang embodies the qualities of a best researcher—innovation, impact, and commitment to sustainability.