Surface Science and Advanced Functional Applications of Cellulose Composites, Volume 38 looks at cellulose composites in relation to surface science and applications. The book provides a comprehensive summary grounded in the surface chemistry and polymer physics of cellulose composites while also enabling readers to understand their history, status, and commercial challenges, and future potential using a range of case studies and examples. Other sections explore the applications of biomedical, antibacterial, water treatment, flexible electronic devices, energy storage, and sensing and review recent developments, problems, and potential developmental directions of cellulose composites.
This book will appeal to chemists, chemical engineers, and materials scientists engaged in biomass, cellulose, nanocellulose, composites, surface science, and related applied biomedical, antibacterial, water treatment, flexible electronic device, and energy storage fields.
Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.
Table of Contents
- Introduction
- Cellulose composites for biomedical applications
- Cellulose nanocomposites for antibacterial applications
- Cellulose-based composites for water treatment
- Cellulose composites for electronic devices
- Advanced cellulose-based electrodes and electrolytes for supercapacitor energy storage devices
- Cellulose composites for optical application
- Conductive nanocomposite hydrogels for flexible wearable sensor
- Promising cellulose-based aerogel composites: Preparation methods and advanced applications
Authors
Ming-Guo Ma Professor, Research Centre of Biomass Clean Utilization, College of Materials Science and Technology, Beijing Forestry University, PR China.Ming-Guo Ma is a Full Professor and a group leader at Beijing Forestry University, PR China. He received his BS (2001) and MS (2005) in Chemistry from Shandong University, PR China. He received his PhD in Materials Physics and Chemistry from the Shanghai Institute of Ceramics, Chinese Academy of Sciences. He was a visiting scholar at the University of Konstanz. He has published over 220 international scientific publications, 14 patents, 14 book chapters, and 39 review papers, with a total citation of over 9000 and H-index of 47. His current research focuses on green synthesis, properties, and applications of the nanocellulose, biomass nanocomposites and 2D materials for sensors, energy storage, Joule heating, photothermal, wearable devices, and electromagnetic interface shielding.
Xing-Xiang Ji Professor, State Key Laboratory of Biobased Material and Green Papermaking, Qilu University of Technology (Shandong Academy of Sciences), PR China. Xing-Xiang Ji is currently a full professor and a group leader at Qilu University of Technology, PR China. She received her B.S. (1999) and M.S. (2006) in Pulp and Paper Engineering from Qilu University of Technology and completed her Ph.D. (2013) in Sugar Engineering at Guangxi University, PR China. She has co-authored around 50 international scientific publications and 40 patents. Her current research focuses on the biomass resource utilization.
