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Laser Irradiation of Metal Oxide Films and Nanostructures: Applications and Advances
Advanced Materials ( IF 27.4 ) Pub Date : 2018-02-07 , DOI: 10.1002/adma.201705148 Haribabu Palneedi 1 , Jung Hwan Park 2 , Deepam Maurya 3 , Mahesh Peddigari 1 , Geon-Tae Hwang 1 , Venkateswarlu Annapureddy 4 , Jong-Woo Kim 1 , Jong-Jin Choi 1 , Byung-Dong Hahn 1 , Shashank Priya 3 , Keon Jae Lee 2 , Jungho Ryu 1
Advanced Materials ( IF 27.4 ) Pub Date : 2018-02-07 , DOI: 10.1002/adma.201705148 Haribabu Palneedi 1 , Jung Hwan Park 2 , Deepam Maurya 3 , Mahesh Peddigari 1 , Geon-Tae Hwang 1 , Venkateswarlu Annapureddy 4 , Jong-Woo Kim 1 , Jong-Jin Choi 1 , Byung-Dong Hahn 1 , Shashank Priya 3 , Keon Jae Lee 2 , Jungho Ryu 1
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Recent technological advances in developing a diverse range of lasers have opened new avenues in material processing. Laser processing of materials involves their exposure to rapid and localized energy, which creates conditions of electronic and thermodynamic nonequilibrium. The laser‐induced heat can be localized in space and time, enabling excellent control over the manipulation of materials. Metal oxides are of significant interest for applications ranging from microelectronics to medicine. Numerous studies have investigated the synthesis, manipulation, and patterning of metal oxide films and nanostructures. Besides providing a brief overview on the principles governing the laser–material interactions, here, the ongoing efforts in laser irradiation of metal oxide films and nanostructures for a variety of applications are reviewed. Latest advances in laser‐assisted processing of metal oxides are summarized.
中文翻译:
激光辐照金属氧化物膜和纳米结构的应用和进展
开发各种激光器的最新技术进步为材料加工开辟了新途径。材料的激光加工涉及其暴露于快速且局部的能量,这会产生电子和热力学非平衡条件。激光产生的热量可以在空间和时间上定位,从而可以很好地控制材料的操作。金属氧化物对于从微电子学到医学的应用具有重大意义。许多研究已经研究了金属氧化物膜和纳米结构的合成,处理和图案化。除了提供有关控制激光与材料相互作用的原理的简要概述之外,这里还回顾了在各种应用中对金属氧化物膜和纳米结构进行激光辐照的持续努力。
更新日期:2018-02-07
中文翻译:
激光辐照金属氧化物膜和纳米结构的应用和进展
开发各种激光器的最新技术进步为材料加工开辟了新途径。材料的激光加工涉及其暴露于快速且局部的能量,这会产生电子和热力学非平衡条件。激光产生的热量可以在空间和时间上定位,从而可以很好地控制材料的操作。金属氧化物对于从微电子学到医学的应用具有重大意义。许多研究已经研究了金属氧化物膜和纳米结构的合成,处理和图案化。除了提供有关控制激光与材料相互作用的原理的简要概述之外,这里还回顾了在各种应用中对金属氧化物膜和纳米结构进行激光辐照的持续努力。
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