Synthesis of Au/SnO2 nanostructures allowing process variable control

Myung Sik Choi; Han Gil Na; Sangwoo Kim; Jae Hoon Bang; Wansik Oum; Sun Woo Choi; Sang Sub Kim; Kyu Hyoung Lee; Hyoun Woo Kim; Changhyun Jin

doi:10.1038/s41598-019-57222-z

Synthesis of Au/SnO₂ nanostructures allowing process variable control

Myung Sik Choi, Han Gil Na, Sangwoo Kim, Jae Hoon Bang, Wansik Oum, Sun Woo Choi, Sang Sub Kim, Kyu Hyoung Lee, Hyoun Woo Kim, Changhyun Jin

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Theoretical advances in science are inherently time-consuming to realise in engineering, since their practical application is hindered by the inability to follow the theoretical essence. Herein, we propose a new method to freely control the time, cost, and process variables in the fabrication of a hybrid featuring Au nanoparticles on a pre-formed SnO₂ nanostructure. The above advantages, which were divided into six categories, are proven to be superior to those achieved elsewhere, and the obtained results are found to be applicable to the synthesis and functionalisation of other nanostructures. Furthermore, the reduction of the time-gap between science and engineering is expected to promote the practical applications of numerous scientific theories.

Original language	English
Article number	346
Journal	Scientific Reports
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41598-019-57222-z
State	Published - 1 Dec 2020

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title = "Synthesis of Au/SnO2 nanostructures allowing process variable control",

abstract = "Theoretical advances in science are inherently time-consuming to realise in engineering, since their practical application is hindered by the inability to follow the theoretical essence. Herein, we propose a new method to freely control the time, cost, and process variables in the fabrication of a hybrid featuring Au nanoparticles on a pre-formed SnO2 nanostructure. The above advantages, which were divided into six categories, are proven to be superior to those achieved elsewhere, and the obtained results are found to be applicable to the synthesis and functionalisation of other nanostructures. Furthermore, the reduction of the time-gap between science and engineering is expected to promote the practical applications of numerous scientific theories.",

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AU - Choi, Myung Sik

AU - Na, Han Gil

AU - Kim, Sangwoo

AU - Bang, Jae Hoon

AU - Oum, Wansik

AU - Choi, Sun Woo

AU - Kim, Sang Sub

AU - Lee, Kyu Hyoung

AU - Kim, Hyoun Woo

AU - Jin, Changhyun

PY - 2020/12/1

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N2 - Theoretical advances in science are inherently time-consuming to realise in engineering, since their practical application is hindered by the inability to follow the theoretical essence. Herein, we propose a new method to freely control the time, cost, and process variables in the fabrication of a hybrid featuring Au nanoparticles on a pre-formed SnO2 nanostructure. The above advantages, which were divided into six categories, are proven to be superior to those achieved elsewhere, and the obtained results are found to be applicable to the synthesis and functionalisation of other nanostructures. Furthermore, the reduction of the time-gap between science and engineering is expected to promote the practical applications of numerous scientific theories.

AB - Theoretical advances in science are inherently time-consuming to realise in engineering, since their practical application is hindered by the inability to follow the theoretical essence. Herein, we propose a new method to freely control the time, cost, and process variables in the fabrication of a hybrid featuring Au nanoparticles on a pre-formed SnO2 nanostructure. The above advantages, which were divided into six categories, are proven to be superior to those achieved elsewhere, and the obtained results are found to be applicable to the synthesis and functionalisation of other nanostructures. Furthermore, the reduction of the time-gap between science and engineering is expected to promote the practical applications of numerous scientific theories.

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Synthesis of Au/SnO₂ nanostructures allowing process variable control

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