通过在 SnO₂ 纳米线网络上修饰离散的 Ag 纳米团簇来轻松控制 C₂H₅OH 传感特性。

Facile control of C₂H₅OH sensing characteristics by decorating discrete Ag nanoclusters on SnO₂ nanowire networks.

机构信息

Department of Materials Science and Engineering, Korea University, Seoul 136-713, Republic of Korea.

出版信息

ACS Appl Mater Interfaces. 2011 Aug;3(8):3140-5. doi: 10.1021/am200647f. Epub 2011 Jul 22.

DOI:10.1021/am200647f

Abstract

The effect of Ag decoration on the gas sensing characteristics of SnO(2) nanowire (NW) networks was investigated. The Ag layers with thicknesses of 5-50 nm were uniformly coated on the surface of SnO(2) NWs via e-beam evaporation, which were converted into isolated or continuous configurations of Ag islands by heat treatment at 450 °C for 2 h. The SnO(2) NWs decorated by isolated Ag nano-islands displayed a 3.7-fold enhancement in gas response to 100 ppm C(2)H(5)OH at 450 °C compared to pristine SnO(2) NWs. In contrast, as the Ag decoration layers became continuous, the response to C(2)H(5)OH decreased significantly. The enhancement and deterioration of the C(2)H(5)OH sensing characteristics by the introduction of the Ag decoration layer were strongly governed by the morphological configurations of the Ag catalysts on SnO(2) NWs and their sensitization mechanism.

摘要

研究了 Ag 修饰对 SnO(2)纳米线 (NW) 网络气体传感特性的影响。通过电子束蒸发，将厚度为 5-50nm 的 Ag 层均匀地覆盖在 SnO(2)NW 的表面上，然后通过在 450°C 下热处理 2 小时，将其转化为孤立或连续的 Ag 岛配置。与原始的 SnO(2)NW 相比，用孤立的 Ag 纳米岛修饰的 SnO(2)NW 在 450°C 时对 100ppm C(2)H(5)OH 的气体响应增强了 3.7 倍。相比之下，随着 Ag 修饰层变得连续，对 C(2)H(5)OH 的响应显著下降。Ag 修饰层的引入对 C(2)H(5)OH 传感特性的增强和恶化强烈取决于 SnO(2)NW 上 Ag 催化剂的形态配置及其敏化机制。

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通过在 SnO₂ 纳米线网络上修饰离散的 Ag 纳米团簇来轻松控制 C₂H₅OH 传感特性。

Facile control of C₂H₅OH sensing characteristics by decorating discrete Ag nanoclusters on SnO₂ nanowire networks.

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