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Literature DB >> 19183646

Widely transparent electrodes based on ultrathin metals.

D S Ghosh¹, L Martinez, S Giurgola, P Vergani, V Pruneri.

Abstract

Transparent electrodes made of single-component ultrathin (<10 nm) metal films (UTMFs) are obtained by sputtering deposition. We show that the optical transparency of the deposited films (chromium and nickel) is comparable to that of indium tin oxide (ITO) in the visible and near-infrared range (0.4-2.5 microm), while it can be significantly higher in the ultraviolet (175-400 nm) and mid-infrared (2.5-25 microm) regions. Despite their very small thickness, the deposited UTMFs are also uniform and continuous over the 10 cm substrate, as it is confirmed by the measured low electrical resistivity. The excellent optical and electrical properties, stability, compatibility with active materials, process simplicity, and potential low cost make UTMFs high-quality transparent electrodes for the optoelectronics industry, seriously competing with widely used transparent conductive oxides, such as ITO.

Entities: Chemical

Year: 2009 PMID： 19183646 DOI： 10.1364/ol.34.000325

Source DB: PubMed Journal: Opt Lett ISSN： 0146-9592 Impact factor: 3.776

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Cited

6 in total

1. A transparent electrode based on a metal nanotrough network.

Authors: Hui Wu; Desheng Kong; Zhichao Ruan; Po-Chun Hsu; Shuang Wang; Zongfu Yu; Thomas J Carney; Liangbing Hu; Shanhui Fan; Yi Cui
Journal: Nat Nanotechnol Date: 2013-05-19 Impact factor: 39.213

2. Directly Printed Embedded Metal Mesh for Flexible Transparent Electrode via Liquid Substrate Electric-Field-Driven Jet.

Authors: Zhenghao Li; Hongke Li; Xiaoyang Zhu; Zilong Peng; Guangming Zhang; Jianjun Yang; Fei Wang; Yuan-Fang Zhang; Luanfa Sun; Rui Wang; Jinbao Zhang; Zhongming Yang; Hao Yi; Hongbo Lan
Journal: Adv Sci (Weinh) Date: 2022-03-01 Impact factor: 17.521

Widely transparent electrodes based on ultrathin metals.

1. A transparent electrode based on a metal nanotrough network.

2. Directly Printed Embedded Metal Mesh for Flexible Transparent Electrode via Liquid Substrate Electric-Field-Driven Jet.

3. An antireflection transparent conductor with ultralow optical loss (<2 %) and electrical resistance (<6 Ω sq^-1).

Review 4. Films of Carbon Nanomaterials for Transparent Conductors.

5. Low-cost uncooled MWIR PbSe quantum dots photodiodes.

Review 6. Transparent Conducting Films Based on Carbon Nanotubes: Rational Design toward the Theoretical Limit.

Widely transparent electrodes based on ultrathin metals.

1. A transparent electrode based on a metal nanotrough network.

2. Directly Printed Embedded Metal Mesh for Flexible Transparent Electrode via Liquid Substrate Electric-Field-Driven Jet.

3. An antireflection transparent conductor with ultralow optical loss (<2 %) and electrical resistance (<6 Ω sq-1).

Review 4. Films of Carbon Nanomaterials for Transparent Conductors.

5. Low-cost uncooled MWIR PbSe quantum dots photodiodes.

Review 6. Transparent Conducting Films Based on Carbon Nanotubes: Rational Design toward the Theoretical Limit.

3. An antireflection transparent conductor with ultralow optical loss (<2 %) and electrical resistance (<6 Ω sq^-1).