Part 1: Novel Structured Metallic Materials

Chapter 1

Introduction to Amorphous Alloys and Metallic Glasses

Shin-ichi Yamaura, Wei Zhang and Akihisa Inoue

 

Chapter 2

Applications of Amorphous Alloy / Metallic Glass for Environmental and Energy Engineering, Electronics Engineering and Biomedical Engineering Fields

Shin-ichi Yamaura, Wei Zhang, Rie Y. Umetsu, Guoqiang Xie and Ichiro Seki

 

Chapter 3

Ti-based Biomedical Alloys

Mitsuo Niinomi and Masaaki Nakai

 

Chapter 4

Mn-Based Ferromagnetic Alloys

Yoshifuru Mitsui and Rie Y. Umetsu

 

Chapter 5

Functional Materials Developed in IMR

Fengxiang Qin, Zhenhua Dan, Wei Zhang, Soyalatu, Mitsuo Niinomi, Takeyuki Nakamoto, Takahiro Kimura and Takashi Nakajima

 

Part 2: Novel Structured Inorganic Materials

 

Chapter 6

Exotic Crystal Structures and Electronic Structures in Novel Structured Inorganic Materials

Toshio Kamiya, Hidenori Hiramatsu, Keisuke Ide, Takayoshi Katase and Hideo Hosono

 

Chapter 7

Interface Related Magnetic Phenomena in Novel Heterostructures

Tomoyasu Taniyama

 

Chapter 8

Microstructure Design for Oxide/Non-oxide Ceramics for Structural Applications

Fumihiro Wakai

 

Part 3: Integration and Processing of Novel Structured Materials

 

Chapter 9

Gas Tungsten Arc Welding

Manabu Tanaka

 

Chapter 10

Laser Welding

Seiji Katayama

 

Chapter 11

Friction Stir Welding

Hidetoshi Fujii

 

Chapter 12

Soldering Process

Hiroshi Nishikawa

 

Chapter 13

Metallurgical Characterization of Joined Materials

Kazuhiro ITO

 

Chapter 14

Plasma Processes for Functionalization and Control of Materials Surface

Yuichi Setsuhara

 

Chapter 15

Laser-Induced Processes for Functionalization of Materials Surface

Masahiro Tsukamoto

 

Chapter 16

Powder Metallurgy Processes for Composite-Materials Integration

Katsuyoshi Kondoh, Chen Biao and Junko Umeda

 

Chapter 17

Dry Nanoparticle Processes for Functional Materials Integration

Takahiro Kozawa and Makio Naito

 

Chapter 18

Three-Dimensional Printing Process

Soshu Kirihara

 

Part 4: Novel Structured Materials for Environmental Protection and Advanced Energy

 

Chapter 19

Current and Future Nano-structured Metals

Toshinobu Yogo

 

Chapter 20

Amorphous Alloy Membranes for Hydrogen Separation and Purification

Shin-ichi Yamaura

 

Chapter 21

Syntheses of Composite Porous Materials for Solid Oxide Fuel Cells

Hiroya Abe and Kazuyoshi Sato

 

Chapter 22

Hybrid Membrane Type Fuel Cells for Intermediate Temperatures

Toshinobu Yogo

 

Chapter 23

Synthesis of Nanomaterials using Solution Plasma Process

Nagahiro Saito, Tomonaga Ueno, Maria Antoaneta Bratescu and Junko Hieda

 

Chapter 24

Metal Oxide Materials for Automotive Catalysts 

Masakuni Ozawa

 

Part 5: Novel Structured Materials for Bio-Medical Applications

 

Chapter 25

Current and Future Hard Materials for Bio-Medical Field

Takao Hanawa

 

Chapter 26

Mechanical Property of Bio-Medical Materials

Masaaki Nakai and Mitsuo Niinomi

 

Chapter 27

Chemical Properties of Bio-Medical Materials

Yusuke Tsutsumi

 

Chapter 28

Biological Properties of Bio-Medical Materials

Miho Nakamura

 

Chapter 29

Metallic Glasses for Bio-Medical Applications

Guoqiang Xie and Xingmin Wang

 

Chapter 30

Low-Young’s-Modulus Materials for Bio-Medical Applications

Mitsuo Niinomi and Masaaki Nakai

 

Chapter 31

Electret Ceramics for Bio-Medical Applications

Naohiro Horiuchi

 

Chapter 32

Surface Modification with Femtosecond Laser

Peng Chen and Masahiro Tsukamoto

 

Chapter 33

Surface Modification with Hydrothermal-Electrochemical Technique

Nobuhiro Matsushita

 

Chapter 34

Surface Modification with Hydrophilization

Kensuke KURODA

 

Chapter 35

Surface Modification with Micro-arc Oxidation

Akiko Nagai, Yusuke Tsutsumi and Kosuke Nozaki

 

Part 6: Novel Structured Materials for Electronic Devices

 

Chapter 36

Spin Electronics

Takahide Kubota, Takeshi Seki and Koki Takanashi

 

Chapter 37

Biosensors based on field-effect transistors

Miyuki Tabata and Yuji Miyahara

 

Chapter 38

Amorphous Oxide Semiconductor Thin-Film Transistors

Toshio Kamiya, Kenji Nomura, Keisuke Ide, Jungwhan Kim, Hidenori Hiramatsu, Hideya Kumomi and Hideo Hosono

 

Chapter 39

Electrode Formation Using Electrodeposition and Direct Bonding for 3D Integration

Tatsushi Kaneda, Hidetoshi Shinohara, Akiko Okada, Kaori Matsunaga, Shuichi Shoji, Mikiko Saito, Hiroshi Nishikawa and Jun Mizuno

 

Chapter 40

Carbon Nanotube Forests on SiC: Structural and Electrical Properties

Masafumi Inaba, Wataru Norimatsu, Michiko Kusunoki, Hiroshi Kawarada

Prof. Yuichi Setsuhara

Joining and Welding Research Institute (JWRI)

Osaka University

Prof. Toshio Kamiya

Laboratory for Materials & Structures

Institute of Innovative Research 

Tokyo Institute of Technology

 

Prof. Shin-ichi Yamaura

Construction Metal Works Unit Laboratory

Fundamental VET

Faculty of Human Resources Development

Polytechnic University

This book describes a series of research topics investigated during the 6 years from 2010 through 2015 in the project "Advanced Materials Development and Integration of Novel Structured Metallic and Inorganic Materials". Every section of the book is aimed at understanding the most advanced research by describing details starting with the fundamentals as often as possible. Because both fundamental and cutting-edge topics are contained in this book, it provides a great deal of useful information for chemists as well as for materials scientists and engineers who wish to consider future prospects and innovations. The contents of Novel Structured Metallic and Inorganic Materials are unique in materials science and technology. The project was carried out through the cooperation of research groups in the following six institutes in Japan: the Institute for Materials Research (IMR), Tohoku University; the Materials and Structures Laboratory (MSL), Tokyo Institute of Technology; the Joining and Welding Research Institute (JWRI), Osaka University; the Eco-Topia Science Institute (EST), Nagoya University; the Institute of Biomaterials and Bioengineering (IBB), Tokyo Medical and Dental University; and the Institute for Nanoscience and Nanotechnology (INN), Waseda University. 

Major objectives of the project included creation of advanced metallic and inorganic materials with a novel structure, as well as development of materials-joining technologies for development of cutting-edge applications as environmental and energy materials, biomedical materials, and electronic materials for contributing to the creation of a safer and more secure society.