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• W1531630049 abstract "Metal oxides have recently been fabricated in solutions without high-temperature sintering in order to reduce energy consumption and allow application for various substrates having low heat resistance. The fabrication of metal oxide thin films from solutions has been encouraged by the development of environment-friendly chemistry such as Green & sustainable chemistry1-6, Bioinspired materials chemistry7, Biomimetic materials chemistry7, Soft-solution processing8-10, Soft chemistry (“Chimie douce” in French)11, Liquid phase deposition7,12, Chemical bath deposition (CBD)12,13, Electroless deposition (ED) with catalyst12,13, Successive ion layer adsorption and reaction (SILAR) 12,13, Sol-gel process14,15, Hydrothermal reaction16, Electrodeposition17,18 and so on. Solution processing of metal oxides allows us to prepare metal oxide thin films on the surface of solids such as substrates, particles, and fibers. Metal oxide nano/microstructures can also be fabricated by applying these solution systems to electronic or photonic devices. Many kinds of lithography or patterning techniques have been developed to prepare patterns of thin films, for instance, X-ray/electronbeam lithography and photolithography,19 microcontact printing,20,21 wet etching,22 ink-jet printing,23 embossing,24,25 slip-pressing,26 charge-based printing,27 micromolding,28 and cold welding29. However, etching or lift-off processes are required in many of these methods, which causes degradation of performance, increases waste and energy consumption, and makes the process complicated. Additionally, etching or lift-off processes cannot be applied to corrosion-resistant metal oxides. The deposition of metal oxides only on desired areas of a substrate is thus required for the pattering of metal oxide thin films. In this section, Liquid Phase Patterning (LPP) of metal oxides was reported 30. Selfassembled monolayer (SAM), which can modify the surface of solids with various functional groups, was used as the template to enable molecular recognition for LPP. Solution systems were developed and applied to LPP of ceramic thin films on patterned SAMs by the proposed novel LPP processes." @default.
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• W1531630049 date "2011-06-28" @default.
• W1531630049 modified "2023-09-24" @default.
• W1531630049 title "Nano/Micro-Patterning of Metal Oxide Nanocrystals" @default.
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• W1531630049 doi "https://doi.org/10.5772/23356" @default.
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