Solution Processed Metal Oxide Thin Films for Electronic Applications Metal Oxides Series
Coordonnateur : Cui Zheng
Solution Processed Metal Oxide Thin Films for Electronic Applications discusses the fundamentals of solution processing materials chemistry techniques as they are applied to metal oxide materials systems for key device applications. The book introduces basic information (materials properties, materials synthesis, barriers), discusses ink formulation and solution processing methods, including sol-gel processing, surface functionalization aspects, and presents a comprehensive accounting on the electronic applications of solution processed metal oxide films, including thin film transistors, photovoltaic cells and other electronics devices and circuits.
This is an important reference for those interested in oxide electronics, printed electronics, flexible electronics and large-area electronics.
1. Introduction 2. Metal Oxide Semiconductors and Conductors 3. Metal Oxide Dielectrics 4. Sol-Gel Process of Metal Oxide Films 5. Metal Oxide Nanoinks 6. Coating and Printing Processes 7. Solution Processed Metal Oxide Thin film Transistors 8. Solution Processed Metal Oxide Films in Photovoltaic Cells 9. Electronic Applications of solution Processed Metal Oxide Films
academic researchers and electronics R&D professionals in the disciplines of materials science and engineering, materials chemistry, and inorganic chemistry
- Provides in-depth information on solution processing fundamentals, techniques, considerations and barriers combined with key device applications
- Reviews important device applications, including transistors, light-emitting diodes, and photovoltaic cells
- Includes an overview of metal oxide materials systems (semiconductors, nanomaterials and thin films), addressing materials synthesis, properties, limitations and surface aspects
Date de parution : 06-2020
Ouvrage de 180 p.
15x22.8 cm
Thèmes de Solution Processed Metal Oxide Thin Films for Electronic... :
Mots-clés :
agglomerate; annealing; buffer layer; charge extraction; charge mobility; charge transport; charge transport layers; coating; combustion chemistry; condensation; dispersion; doping; fill factor (FF); flexible electronics; gate dielectric; high-k; highest occupied molecular orbital (HOMO); hydrothermal; inkjet; leakage current; lithography; lowest unoccupied molecular orbital (LUMO); metal; metal oxide thin films; metal oxides; metal-organic-metal (M-O-M) network; n-type conductivity; nanoparticles; nickel oxide; organic light-emitting diodes; organic PV; p-type conductivity; perovskite PV; photovoltaic (PV); power conversion efficiency (PCE); precipitation; precursor; printed electronics; printing; pyrolysis; quantum dot light-emitting diodes; replicate; roll-to-roll (R2R); self-alignment; SEM micrograph; semiconductors; silicon IC; solution process; solvothermal; sol?gel; surfactants; template; templateless; thin-film transistor; transparent conductive oxides; Zeta potential; zinc; zinc oxide