银纳米线的合成与提纯以制得透光率为 99%的透明导电膜

Synthesis and Purification of Silver Nanowires To Make Conducting Films with a Transmittance of 99%.

机构信息

Department of Chemistry, Duke University , Durham, North Carolina 27708, United States.

State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University , Shanghai 201620, China.

出版信息

Nano Lett. 2015 Oct 14;15(10):6722-6. doi: 10.1021/acs.nanolett.5b02582. Epub 2015 Sep 24.

DOI:10.1021/acs.nanolett.5b02582

PMID:26390188

Abstract

Metal nanowire (NW) networks have the highest performance of any solution-coatable alternative to ITO, but there is as yet no published process for producing NW films with optoelectronic performance that exceeds that of ITO. Here, we demonstrate a process for the synthesis and purification of Ag NWs that, when coated from an ink to create a transparent conducting film, exhibit properties that exceed that of ITO. The diameter, and thus optoelectronic performance, of Ag NWs produced by a polyol synthesis can be controlled by adjusting the concentration of bromide. Ag NWs with diameters of 20 nm and aspect ratios up to 2000 were obtained by adding 2.2 mM NaBr to a Ag NW synthesis, but these NWs were contaminated by nanoparticles. Selective precipitation was used to purify the NWs, resulting in a transmittance improvement as large as 4%. At 130.0 Ω sq(-1), the transmittance of the purified Ag NW film was 99.1%.

摘要

金属纳米线（NW）网络在任何可溶液涂覆的替代 ITO 的材料中具有最高的性能，但目前还没有发表过生产具有超过 ITO 光电性能的 NW 薄膜的工艺。在这里，我们展示了一种合成和纯化 Ag NW 的工艺，当从油墨中涂覆以形成透明导电膜时，所得到的 Ag NW 表现出超过 ITO 的性能。通过多元醇合成制备的 Ag NW 的直径（以及因此的光电性能）可以通过调整溴化物的浓度来控制。通过在 Ag NW 合成中添加 2.2 mM 的 NaBr，可以得到直径为 20nm 且纵横比高达 2000 的 Ag NW，但这些 NW 被纳米颗粒污染。通过选择性沉淀对 NW 进行纯化，导致透光率提高高达 4%。在 130.0 Ω sq(-1)时，纯化的 Ag NW 薄膜的透光率为 99.1%。

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银纳米线的合成与提纯以制得透光率为 99%的透明导电膜

Synthesis and Purification of Silver Nanowires To Make Conducting Films with a Transmittance of 99%.

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