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Breakthrough to Non-Vacuum Deposition of Single-Crystal, Ultra-Thin, Homogeneous Nanoparticle Layers: A Better Alternative to Chemical Bath Deposition and Atomic Layer Deposition

Most thin-film techniques require a multiple vacuum process, and cannot produce high-coverage continuous thin films with the thickness of a few nanometers on rough surfaces. We present a new ”paradigm shift” non-vacuum process to deposit high-quality, ultra-thin, single-crystal layers of coalesced s...

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Detalhes bibliográficos
Publicado no:	Nanomaterials (Basel)
Main Authors:	Liao, Yu-Kuang, Liu, Yung-Tsung, Hsieh, Dan-Hua, Shen, Tien-Lin, Hsieh, Ming-Yang, Tzou, An-Jye, Chen, Shih-Chen, Tsai, Yu-Lin, Lin, Wei-Sheng, Chan, Sheng-Wen, Shen, Yen-Ping, Cheng, Shun-Jen, Chen, Chyong-Hua, Wu, Kaung-Hsiung, Chen, Hao-Ming, Kuo, Shou-Yi, Charlton, Martin D. B., Hsieh, Tung-Po, Kuo, Hao-Chung
Formato:	Artigo
Idioma:	Inglês
Publicado em:	MDPI 2017
Assuntos:	Article
Acesso em linha:	https://ncbi.nlm.nih.gov/pmc/articles/PMC5408170/ https://ncbi.nlm.nih.gov/pubmed/28383488 https://ncbi.nlm.nih.govhttp://dx.doi.org/10.3390/nano7040078
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Breakthrough to Non-Vacuum Deposition of Single-Crystal, Ultra-Thin, Homogeneous Nanoparticle Layers: A Better Alternative to Chemical Bath Deposition and Atomic Layer Deposition

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