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Functional Thin Films Technology Advances in Materials Science and Engineering Series

Langue : Anglais

Coordonnateurs : Zhang Sam, Ting Jyh-Ming, Wu Wan-Yu

Couverture de l’ouvrage Functional Thin Films Technology

Functional Thin Films Technology features the functional aspects of thin films, such as their application in solar selective absorbers, fiber lasers, solid oxide fuel cells, piezo-related areas, catalysts, superhydrophobicity, semiconductors, and trace pesticides detection. It highlights developments and advances in the preparation, characterization, and applications of functional micro-/nano-scaled films and coatings.

This book

  • Presents technologies aimed at functionality used in nanoelectronics, solar selective absorbers, solid oxide fuel cells, piezo-applications, and sensors

  • Covers absorbers, catalysts, anodic aluminum oxide, superhydrophobics, and semiconductor devices

  • Features a chapter on transport phenomena associated to structures
  • Discusses transport phenomena and material informatics

This second volume in the two-volume set, Protective Thin Coatings and Functional Thin Films Technology, will benefit industry professionals and researchers working in areas related to semiconductors, optoelectronics, plasma technology, solid-state energy storages, and 5G, as well as advanced students studying electrical, mechanical, chemical, and materials engineering.

Chapter 1 Combinatorial Synthesis Applied to the Development of Thin Film Materials for Nanoelectronics

Chapter 2 Sputter Deposited Nanostructured Coatings as Solar Selective Absorbers

Chapter 3 Novel Mode-Locked Fiber Lasers with Broadband Saturable Absorbers

Chapter 4 Thin Coating Technologies and Applications in High-Temperature Solid Oxide Fuel Cells

Chapter 5 Mutually Influenced Stacking and Evolution of Inorganic/Organic Crystals for Piezo-Related Applications

Chapter 6 Single-Atom Catalysts on Nanostructure from Science to Applications

Chapter 7 Growth, Characteristics and Application of Nanoporous Anodic Aluminum Oxide Synthesized at Relatively High Temperature

Chapter 8 Multifunctional Superhydrophobic Nanocomposite Surface

Chapter 9 Solution-Processed Oxide-Semiconductor Films and Devices

Chapter 10 Gold Nanocrystal-built Films for SERS-based Detection of Trace Organochlorine Pesticides

Chapter 11 The Effect of Deposition Parameters on the Mechanical and Transport

Properties in Nanostructured Cu/W Multilayer Coatings

Index

Professor Sam Zhang Shanyong (張善勇), better known as Sam Zhang, was born and brought up in the famous "City of Mountains" Chongqing, China. He received his Bachelor of Engineering in Materials in 1982 from Northeastern University (Shenyang, China), Master of Engineering in Materials in 1984 from Iron & Steel Research Institute (Beijing, China) and Ph.D. degree in Ceramics in 1991 from The University of Wisconsin-Madison, USA. He was a tenured full professor (since 2006) at the School of Mechanical and Aerospace Engineering, Nanyang Technological University. In January 2018, he joined School of Materials and Energy, Southwest University, Chongqing, China and assumed duty as Director of the Centre for Advanced Thin Film Materials and Devices of the university. Dr. Jyh-Ming Ting is an AES Chair Professor of the Department of Materials Science and Engineering at National Cheng Kung University (NCKU) in Taiwan. He received a BS degree in Nuclear Engineering from National Tsing Hua University in Taiwan 1982, and completed MS and PhD works at the Department of Materials Science and Engineering in University of Cincinnati in 1987 and 1991, respectively. From 1990 to 1997, Dr. Ting worked at Applied Sciences, Inc. (ASI), as a Scientist and then the R&D Director. In August 1997, Dr. Ting became a faculty in NCKU working on various carbon materials and low-dimensional materials, and their (nano)composites. At the early stage, nano-scaled (composite) thin films and CNT were of interest. In particular, Prof. Ting developed and patented several novel techniques that allow the growth of aligned CNTs on metallic substrates, also holding the record of the growth rate until now. In recent years, in response to the serious issues related to environment, his research focuses on applying low-dimensional materials, mainly nanoparticles and 2D layered structures, and their composites, to energy generation/storage and photodegradation. More recently, Prof. is working in high entropy oxides