Chemical properties of electrosprayed antimony tin oxide thin film/Ag nanowire multilayer for transparent conductive electrodes

Bon Ryul Koo; Hyo Jin Ahn

doi:10.7567/APEX.7.075002

Chemical properties of electrosprayed antimony tin oxide thin film/Ag nanowire multilayer for transparent conductive electrodes

Bon Ryul Koo
, Hyo Jin Ahn

Dept. of Materials Science & Engineering

Seoul National University of Science and Technology (SNUST)

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

9 Scopus citations

Abstract

An antimony tin oxide (ATO) thin film/Ag nanowire (NW) multilayer was fabricated by spin-coating and electrospray deposition. To investigate the optimum thickness of the ATO thin layer deposited on Ag NWs, its deposition time was varied in the range of 0-15 min. The multilayer nanostructure with an ATO thin layer deposited for 3 min exhibited excellent sheet resistance (∼27.9Ω/□), high optical transmittance (∼81.9%), good haze value (∼4.7%), excellent thermal stability under microwave annealing at 300 °C, and excellent chemical stability for 4 weeks because of the optimized ATO thin layer and excellent electrical conductivity of the Ag NWs.

Original language	English
Article number	075002
Journal	Applied Physics Express
Volume	7
Issue number	7
DOIs	https://doi.org/10.7567/APEX.7.075002
State	Published - Jul 2014

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title = "Chemical properties of electrosprayed antimony tin oxide thin film/Ag nanowire multilayer for transparent conductive electrodes",

abstract = "An antimony tin oxide (ATO) thin film/Ag nanowire (NW) multilayer was fabricated by spin-coating and electrospray deposition. To investigate the optimum thickness of the ATO thin layer deposited on Ag NWs, its deposition time was varied in the range of 0-15 min. The multilayer nanostructure with an ATO thin layer deposited for 3 min exhibited excellent sheet resistance (∼27.9Ω/□), high optical transmittance (∼81.9\%), good haze value (∼4.7\%), excellent thermal stability under microwave annealing at 300 °C, and excellent chemical stability for 4 weeks because of the optimized ATO thin layer and excellent electrical conductivity of the Ag NWs.",

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year = "2014",

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doi = "10.7567/APEX.7.075002",

language = "English",

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journal = "Applied Physics Express",

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T1 - Chemical properties of electrosprayed antimony tin oxide thin film/Ag nanowire multilayer for transparent conductive electrodes

AU - Koo, Bon Ryul

AU - Ahn, Hyo Jin

PY - 2014/7

Y1 - 2014/7

N2 - An antimony tin oxide (ATO) thin film/Ag nanowire (NW) multilayer was fabricated by spin-coating and electrospray deposition. To investigate the optimum thickness of the ATO thin layer deposited on Ag NWs, its deposition time was varied in the range of 0-15 min. The multilayer nanostructure with an ATO thin layer deposited for 3 min exhibited excellent sheet resistance (∼27.9Ω/□), high optical transmittance (∼81.9%), good haze value (∼4.7%), excellent thermal stability under microwave annealing at 300 °C, and excellent chemical stability for 4 weeks because of the optimized ATO thin layer and excellent electrical conductivity of the Ag NWs.

AB - An antimony tin oxide (ATO) thin film/Ag nanowire (NW) multilayer was fabricated by spin-coating and electrospray deposition. To investigate the optimum thickness of the ATO thin layer deposited on Ag NWs, its deposition time was varied in the range of 0-15 min. The multilayer nanostructure with an ATO thin layer deposited for 3 min exhibited excellent sheet resistance (∼27.9Ω/□), high optical transmittance (∼81.9%), good haze value (∼4.7%), excellent thermal stability under microwave annealing at 300 °C, and excellent chemical stability for 4 weeks because of the optimized ATO thin layer and excellent electrical conductivity of the Ag NWs.

UR - https://www.scopus.com/pages/publications/84904669816

U2 - 10.7567/APEX.7.075002

DO - 10.7567/APEX.7.075002

M3 - Article

AN - SCOPUS:84904669816

SN - 1882-0778

VL - 7

JO - Applied Physics Express

JF - Applied Physics Express

IS - 7

M1 - 075002

ER -

Chemical properties of electrosprayed antimony tin oxide thin film/Ag nanowire multilayer for transparent conductive electrodes

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