Xiaohui Wang | Sustainable materials | Best Researcher Award

Prof. Xiaohui Wang | Sustainable materials | Best Researcher Award

Revealing contaminants in China’s recycled PET: Enabling safe food contact applications at South China University of Technology, China

Dr. Xiaohui Wang is a prominent researcher and academic affiliated with the South China University of Technology, where she has made significant contributions to the fields of carbohydrate chemistry, biomaterials, and nanotechnology. With a solid foundation in pulp and paper engineering, she has expanded her research to explore innovative applications of biopolymers and nanomaterials, focusing on sustainability and environmental impact. Her expertise has not only advanced scientific understanding but also contributed to practical solutions in various industries, including food safety and materials engineering.

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Education

Dr. Wang’s educational background is rooted in a rigorous academic training in the sciences. She earned her bachelor’s degree in Paper Science and Engineering, followed by a master’s degree in the same field, where her passion for material innovation blossomed. She further pursued her Ph.D. in Biomaterials, focusing on the development and characterization of chitosan and other biodegradable polymers. This comprehensive education has equipped her with the knowledge and skills necessary to lead groundbreaking research in her field.

Experience

Dr. Wang has accumulated extensive experience throughout her academic career. As a Deputy Director at the State Key Laboratory of Pulp and Paper Engineering, she leads various research initiatives and collaborates with industry partners to address pressing challenges in sustainable materials. Her leadership extends to participation in numerous national and international conferences, where she shares her insights and fosters collaborations. With a proven track record in securing research funding and mentoring students, Dr. Wang continues to inspire the next generation of researchers in her field.

Research Interests

Dr. Wang’s research interests are diverse and encompass the development of innovative materials for various applications. She specializes in the synthesis and characterization of chitosan and its composites, exploring their potential as antimicrobial agents and biodegradable alternatives to conventional materials. Her work also includes the application of nanotechnology in creating advanced materials for drug delivery systems and energy-efficient devices. Dr. Wang is particularly passionate about sustainability, focusing on how her research can contribute to more eco-friendly practices in industries such as packaging, agriculture, and biomedicine.

Awards

Dr. Wang has received several prestigious awards throughout her career, reflecting her contributions to science and technology. Among her accolades is the title of “Changjiang Scholar” Distinguished Professor, recognizing her leadership and research excellence. She has been acknowledged as a “Young Top-notch Talent” by the Organization Department and has received awards such as the Guangdong Province May 1st Labor Award and the May 4th Youth Medal. Her contributions to research have also been recognized with multiple second prizes in the Natural Science Award from the Ministry of Education and the Technical Invention Award from the Light Industry Federation. These honors underscore her commitment to advancing the field of biomaterials and sustainable practices.

Publications

Liu, H., Du, Y., Wang, X., & Sun, L. (2004). “Chitosan kills bacteria through cell membrane damage.” International Journal of Food Microbiology, 95(2), 147-155. [Cited by 1100]
Wang, X., Du, Y., & Liu, H. (2004). “Preparation, characterization and antimicrobial activity of chitosan–Zn complex.” Carbohydrate Polymers, 56(1), 21-26. [Cited by 541]
Wang, X., Du, Y., Fan, L., Liu, H., & Hu, Y. (2005). “Chitosan-metal complexes as antimicrobial agents: Synthesis, characterization and structure-activity study.” Polymer Bulletin, 55, 105-113. [Cited by 445]
Huang, F., Hou, L., Wu, H., Wang, X., Shen, H., Cao, W., Yang, W., & Cao, Y. (2004). “High-efficiency, environment-friendly electroluminescent polymers with stable high work function metal as a cathode: Green-and yellow-emitting conjugated polyfluorene.” Journal of the American Chemical Society, 126(31), 9845-9853. [Cited by 372]
Yang, Y., Wang, S., Wang, Y., Wang, X., Wang, Q., & Chen, M. (2014). “Advances in self-assembled chitosan nanomaterials for drug delivery.” Biotechnology Advances, 32(7), 1301-1316. [Cited by 333]
Ge, W., Cao, S., Yang, Y., Rojas, O. J., & Wang, X. (2021). “Nanocellulose/LiCl systems enable conductive and stretchable electrolyte hydrogels with tolerance to dehydration and extreme cold conditions.” Chemical Engineering Journal, 408, 127306. [Cited by 250]
Liang, Z., Kang, M., Payne, G. F., Wang, X., & Sun, R. (2016). “Probing energy and electron transfer mechanisms in fluorescence quenching of biomass carbon quantum dots.” ACS Applied Materials & Interfaces, 8(27), 17478-17488. [Cited by 248]
Ge, W., Cao, S., Shen, F., Wang, Y., Ren, J., & Wang, X. (2019). “Rapid self-healing, stretchable, moldable, antioxidant and antibacterial tannic acid-cellulose nanofibril composite hydrogels.” Carbohydrate Polymers, 224, 115147. [Cited by 204]

Conclusion

Dr. Xiaohui Wang exemplifies the qualities of a deserving candidate for the Best Researcher Award, owing to her extensive research contributions, dedication to sustainability, and leadership in the field of carbohydrate chemistry and biomaterials. Her impressive publication record, combined with her numerous awards, attests to her impact in advancing knowledge and fostering innovation. Recognizing Dr. Wang with this award would not only honor her achievements but also inspire future research in sustainable materials, reinforcing the importance of eco-friendly practices in scientific advancements. Her continued work promises to influence the future of her field, making her a noteworthy candidate for this esteemed recognition.

Cemil Atakara | Building Design and Consruction, Sustainable Building Design and Energy, Urban Morphology | Best Innovation Award

Prof Dr. Cemil Atakara | Building Design and Consruction, Sustainable Building Design and Energy, Urban Morphology | Best Innovation Award

Prof Dr Cemil Atakara , Cyprus International University , Turkey

Prof. Dr. Cemil Atakara, born on July 22, 1977, is a distinguished academic in architecture and building science. He serves as a Professor at Eastern Mediterranean University (EMU) and has been instrumental in advancing the field through extensive research, teaching, and supervision. With a strong commitment to sustainability and innovative building practices, Prof. Atakara has been actively involved in various academic and professional committees, including the MOBBIG Ethics Commission and the KKTC Architecture and Education Congress. His leadership in organizing seminars and his role as a session chair at international conferences highlight his dedication to advancing architectural education and practice.

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Strengths for the Award

  1. Innovative Research Focus: Prof. Dr. Cemil Atakara’s research spans critical areas of building science and sustainable architecture, such as advanced materials, energy conservation, and smart construction technologies. His recent work on integrating AI and IoT in eco-friendly homes exemplifies cutting-edge innovation.
  2. Diverse and Impactful Publications: His extensive publication record includes influential papers on sustainable urban development, energy-efficient building design, and advanced materials, showcasing his contribution to both theoretical and practical aspects of architecture.
  3. Leadership and Expertise: Prof. Atakara’s academic progression to Professorship, his role in organizing and chairing significant conferences, and his involvement in various academic and professional committees highlight his leadership and deep expertise in his field.

Areas for Improvement

  1. Broader Collaborative Research: While Prof. Atakara has a strong individual research profile, expanding collaborative efforts with interdisciplinary teams or industry partners could enhance the practical application and impact of his research.
  2. Global Outreach: Increasing the visibility of his work on an international platform through more collaborations and publications in high-impact global journals could further strengthen his research’s influence and recognition.

Education

Prof. Dr. Cemil Atakara completed his Bachelor’s degree in Architecture at Eastern Mediterranean University in 2000, followed by a Master’s degree in Building Science from the same institution in 2002. He earned his Ph.D. in Building Science from EMU in 2012. His educational journey reflects a deep commitment to understanding and innovating within the field of architecture and building science, with a focus on sustainable and energy-efficient design.

Experience

Prof. Dr. Cemil Atakara has a robust academic career at Eastern Mediterranean University, where he has served as an Assistant Professor since 2013, Associate Professor since 2016, and was promoted to Professor in March 2022. His professional experience extends beyond academia, including jury memberships for architectural awards and thesis evaluations. His leadership roles in various committees, such as the UKÜ Student Discipline Committee and the KKTC Presidency Environmental Committee, underscore his influence and dedication to advancing architectural standards and education.

Research Focus

Prof. Dr. Cemil Atakara’s research primarily centers on sustainable architecture, building science, and innovative construction technologies. His work explores energy conservation, green building materials, and the integration of smart technologies in construction. Notable research themes include passive solar design strategies, advanced composite materials, and urban development. His publications often address the intersection of architectural design with sustainability and efficiency, reflecting a commitment to improving environmental performance and architectural identity.

Publications Top Notes

  1. Investigating the urban spatial growth by using space syntax and GIS—A case study of Famagusta city 🌆
  2. Residential Building Energy Conservation in Mediterranean Climate Zone by Integrating Passive Solar and Energy Efficiency Design Strategies 🌞
  3. Spatial Characteristics of Suspended Glass System with Prestress Cable Truss 🏗️
  4. Sustainable Urban Development in the Green City: Kyrenia White Zone 🌿
  5. Reshaping the tourist movement in historical urban areas for enhancing architecture conservation: Historical district of Koya city as a case study 🏛️
  6. The effect of enhancing super insulation Aerogel for future building façades in North of Iraq 🧱
  7. Investigating the important factors of use and replacement of thirsty concrete materials in urban development 🏙️
  8. Preventing dampness related health risks at the design stage of buildings in mediterranean climates: a cyprus case study 💧
  9. A Contemporary Connection to Historic Buildings Through Transparency and Reusability 🏰
  10. Determining Factors of Complexity in Structures 🔍
  11. The ontology of contemporary construction 🏛️
  12. Assessment of African Vernacular Built Environment and Power: The Case of the Walled City of Zaria, Nigeria 🌍
  13. Thermal performance of advanced material in intelligent concave and convex building façade in the semi-arid climate of low-rise residential 🌡️
  14. Sustainable developments for coastal problems in Kyrenia, Cyprus 🌊
  15. Assimilation of 3D Printing, Artificial Intelligence (AI) and Internet of Things (IoT) For the Construction of Eco-Friendly Intelligent homes: An Explorative Review 🤖
  16. The Integration of 3D Printing, Artificial Intelligence and Internet of Things for Construction of Sustainable Smart Homes 🏡
  17. Semiotics Gothic Era in Cyprus 🏛️
  18. Ethics Behind the Duality between Structure and Ornamentation ⚖️
  19. Possible Uses of Smart Materials in the Development of Suspended Glass Systems with Prestressed Cable Truss 🔬

Conclusion

Prof. Dr. Cemil Atakara is highly suitable for the Research for Best Innovation Award due to his substantial contributions to sustainable building science and innovative architecture. His research not only addresses pressing environmental and technological challenges but also demonstrates a commitment to advancing the field through both theoretical advancements and practical applications. By addressing the identified areas for improvement, he could further amplify the impact and reach of his groundbreaking work.