Solution processed metal oxide thin films for electronic applications / edited by Zheng Cui and Ghenadii Korotcenkov.
Contributor(s): Cui, Zheng
| Korotchenkov, G. S. (Gennadi�i Sergeevich).
Material type: 
BookSeries: Metal oxides series: Publisher: Amsterdam : Elsevier, 2020Description: 1 online resource (180 pages).Content type: text Media type: computer Carrier type: online resourceISBN: 9780128149317; 0128149310.Subject(s): Thin films | Metallic oxides | Couches minces | Oxydes m�etalliques | Metallic oxides | Thin filmsAdditional physical formats: Print version:: Solution Processed Metal Oxide Thin Films for Electronic Applications.DDC classification: 621.3815/2 Online resources: ScienceDirect Print version record.
Cover -- Title -- Copyright -- Contents -- Contributors -- Volume Editor Biography -- Preface to the series -- Chapter 1 -- Introduction -- 1.1 -- Solution-processed electronics -- 1.2 -- Metal oxides in solution -- 1.3 -- Structure of the book -- References -- Chapter 2 -- Metal oxide semiconductors and conductors -- 2.1 -- Introduction -- 2.2 -- n-Type metal oxides -- 2.2.1 -- In2O3 -- 2.2.2 -- ZnO -- 2.2.3 -- SnO2 -- 2.2.4 -- ZnO-In2O3-SnO2 (ZITO) -- 2.3 -- P-type metal oxides -- 2.3.1 -- Cu2O -- 2.3.2 -- NiO -- 2.3.3 -- SnO -- References -- Chapter 3 -- Metal oxide dielectrics -- 3.1 -- Introduction
3.2 -- Basics and theory of dielectrics -- 3.3 -- Roles of dielectric layers in thin-film transistors -- 3.4 -- High-k metal oxide dielectrics -- References -- Chapter 4 -- Sol-gel precursor inks and films -- 4.1 -- Introduction -- 4.2 -- Fundamental of sol-gel process -- 4.3 -- Sol-gel precursor inks -- 4.4 -- Sol-gel process of metal oxide film -- 4.4.1 -- Al2O3 film -- 4.4.2 -- HfO2 film -- 4.4.3 -- ZnO film -- 4.4.4 -- TiO2 film -- 4.5 -- Other precursors-based metal oxides inks and films -- References -- Chapter 5 -- Nanoparticles inks -- 5.1 -- Introduction -- 5.2 -- Synthesis of metal oxide nanoparticles
5.2.1 -- Hot-injection method -- 5.2.2 -- Hydrothermal or solvothermal method -- 5.2.3 -- One-pot heating method -- 5.2.4 -- Microwave-assisted method -- 5.2.5 -- Precipitation method -- 5.2.6 -- Sol-gel method -- 5.2.7 -- Continuous flow method -- 5.2.8 -- Ball-milling method -- 5.3 -- Characterization and properties of metal oxide nanoparticles -- 5.3.1 -- Measurement methods -- 5.3.2 -- Physical and chemical properties -- 5.4 -- Formulation of metal oxide nanoparticles inks -- 5.4.1 -- Surfactants -- 5.4.2 -- Long-term stability -- References -- Chapter 6 -- Coating and printing processes
6.1 -- Introduction -- 6.2 -- Nonpatternable solution processes -- 6.2.1 -- Spin coating -- 6.2.2 -- Spray coating -- 6.2.3 -- Bar coating -- 6.3 -- Patternable solution processes -- 6.3.1 -- Inkjet printing -- 6.3.2 -- Templated printing -- 6.4 -- Roll-to-roll solution processes -- 6.5 -- Self-aligned solution processes -- References -- Chapter 7 -- Thermal processes -- 7.1 -- Introduction -- 7.2 -- Internal annealing -- 7.3 -- External annealing -- 7.3.1 -- UV annealing -- 7.3.2 -- Microwave annealing -- 7.3.3 -- High-pressure annealing -- 7.4 -- Low-temperature enabled flexible electronics -- References
Chapter 8 -- Applications in photovoltaics -- 8.1 -- Introduction -- 8.2 -- Metal oxides as buffer layers for OPVs -- 8.3 -- Electron transport layer -- 8.3.1 -- ZnO -- 8.3.2 -- TiO2 -- 8.3.3 -- Other metal oxides -- 8.4 -- Hole transport layer -- 8.4.1 -- MoO3 -- 8.4.2 -- V2O5 -- 8.4.3 -- WOx -- 8.4.4 NiO -- 8.4.5 -- CuOx -- 8.4.6 -- Metal oxide composites -- 8.5 -- Metal oxides as buffer layer for perovskite PV -- 8.6 -- Electron extraction layer -- 8.6.1 -- TiO2 -- 8.6.2 -- ZnO -- 8.6.3 -- SnO2 -- 8.6.4 -- Other metal oxides -- 8.7 -- Hole extraction layer -- 8.7.1 -- NiO -- 8.7.2 -- CuxO -- 8.7.3 -- MoOx
8.7.4 -- Metal oxide composites
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