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W4385829367 abstract "Thermal, electrical, and chemical instabilities affect the efficient integration of silver nanowire (AgNW) networks as transparent electrodes for energy and wearable electronics. By coupling experimental data and a simple physical model, we deduce the electrical areal power density ranges that AgNW networks can withstand, to observe either reversible modifications (i.e., electron–phonon interaction) or irreversible modifications (i.e., electrical sintering or degradation). This approach also allows us to predict the associated Joule heating temperature in the reversible domain for any applied voltage and initial resistance. It constitutes an efficient guide to design any device incorporating AgNW networks in which electrical current is applied. To improve AgNW stability, tin oxide (SnO2) coating has been deposited by atmospheric-pressure spatial atomic layer deposition at 200 °C. For a similar initial resistance, the observed maximum areal power density increases from 1.6 to 3.3 W cm–2 for bare AgNWs and 40 nm-SnO2/AgNW networks, respectively, and their associated Joule heating temperatures are 220 and 410 °C, respectively. In addition to the high electrical stability of SnO2/AgNW nanocomposites, we demonstrate their enhanced stability when exposed to either thermal stress up to 400 °C, or environmental stress with 80% of relative humidity at 70 °C for 2 weeks." @default.
W4385829367 created "2023-08-16" @default.
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W4385829367 date "2023-08-15" @default.
W4385829367 modified "2023-10-15" @default.
W4385829367 title "SnO<sub>2</sub>-Coated Silver Nanowire Networks as a Physical Model Describing Their Reversible Domain under Electrical Stress for Stable Transparent Electrode Applications" @default.
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W4385829367 cites W1977122267 @default.
W4385829367 cites W1983911872 @default.
W4385829367 cites W1992458045 @default.
W4385829367 cites W2004668025 @default.
W4385829367 cites W2006899770 @default.
W4385829367 cites W2015566956 @default.
W4385829367 cites W2023603575 @default.
W4385829367 cites W2035508734 @default.
W4385829367 cites W2035559574 @default.
W4385829367 cites W2047452850 @default.
W4385829367 cites W2048563702 @default.
W4385829367 cites W2050366329 @default.
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W4385829367 cites W2158932701 @default.
W4385829367 cites W2268291024 @default.
W4385829367 cites W2319986350 @default.
W4385829367 cites W2326815910 @default.
W4385829367 cites W2342402853 @default.
W4385829367 cites W2520850156 @default.
W4385829367 cites W2534271968 @default.
W4385829367 cites W2564737185 @default.
W4385829367 cites W2604285645 @default.
W4385829367 cites W2620196485 @default.
W4385829367 cites W2758339894 @default.
W4385829367 cites W2800162270 @default.
W4385829367 cites W2800176448 @default.
W4385829367 cites W2932801576 @default.
W4385829367 cites W2946222468 @default.
W4385829367 cites W2969660034 @default.
W4385829367 cites W2971498842 @default.
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W4385829367 cites W3002620370 @default.
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W4385829367 doi "https://doi.org/10.1021/acsanm.3c03008" @default.
W4385829367 hasPublicationYear "2023" @default.
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