Room-temperature nanojoining of silver nanowires by graphene oxide for highly conductive flexible transparent electrodes

Su Ding; Shucheng Zhang; Tong Yin; He Zhang; Chenxi Wang; Yong Wang; Qikun Li; Nan Zhou; Fengyu Su; Zhi Jiang; Dan Tan; Rusen Yang

doi:10.1088/1361-6528/ac9c09

Room-temperature nanojoining of silver nanowires by graphene oxide for highly conductive flexible transparent electrodes

Su Ding
, Shucheng Zhang
, Tong Yin
, He Zhang
, Chenxi Wang
, Yong Wang
, Qikun Li
, Nan Zhou
, Fengyu Su
, Zhi Jiang
, Dan Tan^*
, Rusen Yang^*

^*Corresponding author for this work

School of Materials Science and Engineering

Xidian University
Harbin Institute of Technology
Southern University of Science and Technology
Nanyang Technological University

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

13 Scopus citations

Abstract

Flexible transparent electrodes for touch panels, solar cells, and wearable electronics are in great demand in recent years, and the silver nanowire (AgNW) flexible transparent electrode (FTE) is among the top candidates due to its excellent light transmittance and flexibility and the highest conductivity of silver among all metals. However, the conductivity of an AgNWs network has long been limited by the large contact resistance. Here we show a room-temperature solution process to tackle the challenge by nanojoining AgNWs with two-dimensional graphene oxide (GO). The conductivity of the AgNWs network is improved 18 times due to the enhanced junctions between AgNWs by the coated GOs, and the AgNW-GO FTE exhibits a low sheet resistance of 23 Ohm sq⁻¹ and 88% light transmittance. It is stable under high temperature and current and their flexibility is intact after 1000 cycles of bending. Measurements of a bifunctional electrochromic device shows the high performance of the AgNW-GO FTE as a FTE.

Original language	English
Article number	045201
Journal	Nanotechnology
Volume	34
Issue number	4
DOIs	https://doi.org/10.1088/1361-6528/ac9c09
State	Published - 22 Jan 2023

Keywords

electrochromic device
flexible transparent electrode
graphene oxide
nanojoining
silver nanowire
stability

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10.1088/1361-6528/ac9c09

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title = "Room-temperature nanojoining of silver nanowires by graphene oxide for highly conductive flexible transparent electrodes",

abstract = "Flexible transparent electrodes for touch panels, solar cells, and wearable electronics are in great demand in recent years, and the silver nanowire (AgNW) flexible transparent electrode (FTE) is among the top candidates due to its excellent light transmittance and flexibility and the highest conductivity of silver among all metals. However, the conductivity of an AgNWs network has long been limited by the large contact resistance. Here we show a room-temperature solution process to tackle the challenge by nanojoining AgNWs with two-dimensional graphene oxide (GO). The conductivity of the AgNWs network is improved 18 times due to the enhanced junctions between AgNWs by the coated GOs, and the AgNW-GO FTE exhibits a low sheet resistance of 23 Ohm sq−1 and 88\% light transmittance. It is stable under high temperature and current and their flexibility is intact after 1000 cycles of bending. Measurements of a bifunctional electrochromic device shows the high performance of the AgNW-GO FTE as a FTE.",

keywords = "electrochromic device, flexible transparent electrode, graphene oxide, nanojoining, silver nanowire, stability",

author = "Su Ding and Shucheng Zhang and Tong Yin and He Zhang and Chenxi Wang and Yong Wang and Qikun Li and Nan Zhou and Fengyu Su and Zhi Jiang and Dan Tan and Rusen Yang",

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day = "22",

doi = "10.1088/1361-6528/ac9c09",

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T1 - Room-temperature nanojoining of silver nanowires by graphene oxide for highly conductive flexible transparent electrodes

AU - Ding, Su

AU - Zhang, Shucheng

AU - Yin, Tong

AU - Zhang, He

AU - Wang, Chenxi

AU - Wang, Yong

AU - Li, Qikun

AU - Zhou, Nan

AU - Su, Fengyu

AU - Jiang, Zhi

AU - Tan, Dan

AU - Yang, Rusen

PY - 2023/1/22

Y1 - 2023/1/22

N2 - Flexible transparent electrodes for touch panels, solar cells, and wearable electronics are in great demand in recent years, and the silver nanowire (AgNW) flexible transparent electrode (FTE) is among the top candidates due to its excellent light transmittance and flexibility and the highest conductivity of silver among all metals. However, the conductivity of an AgNWs network has long been limited by the large contact resistance. Here we show a room-temperature solution process to tackle the challenge by nanojoining AgNWs with two-dimensional graphene oxide (GO). The conductivity of the AgNWs network is improved 18 times due to the enhanced junctions between AgNWs by the coated GOs, and the AgNW-GO FTE exhibits a low sheet resistance of 23 Ohm sq−1 and 88% light transmittance. It is stable under high temperature and current and their flexibility is intact after 1000 cycles of bending. Measurements of a bifunctional electrochromic device shows the high performance of the AgNW-GO FTE as a FTE.

AB - Flexible transparent electrodes for touch panels, solar cells, and wearable electronics are in great demand in recent years, and the silver nanowire (AgNW) flexible transparent electrode (FTE) is among the top candidates due to its excellent light transmittance and flexibility and the highest conductivity of silver among all metals. However, the conductivity of an AgNWs network has long been limited by the large contact resistance. Here we show a room-temperature solution process to tackle the challenge by nanojoining AgNWs with two-dimensional graphene oxide (GO). The conductivity of the AgNWs network is improved 18 times due to the enhanced junctions between AgNWs by the coated GOs, and the AgNW-GO FTE exhibits a low sheet resistance of 23 Ohm sq−1 and 88% light transmittance. It is stable under high temperature and current and their flexibility is intact after 1000 cycles of bending. Measurements of a bifunctional electrochromic device shows the high performance of the AgNW-GO FTE as a FTE.

KW - electrochromic device

KW - flexible transparent electrode

KW - graphene oxide

KW - nanojoining

KW - silver nanowire

KW - stability

UR - https://www.scopus.com/pages/publications/85141814661

U2 - 10.1088/1361-6528/ac9c09

DO - 10.1088/1361-6528/ac9c09

M3 - 文章

C2 - 36265462

AN - SCOPUS:85141814661

SN - 0957-4484

VL - 34

JO - Nanotechnology

JF - Nanotechnology

IS - 4

M1 - 045201

ER -

Room-temperature nanojoining of silver nanowires by graphene oxide for highly conductive flexible transparent electrodes

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Keywords

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