Transparent and flexible Sb-doped SnO2 films with a nanoscale AgTi alloyed interlayer for heat generation and shielding applications

Cho Kyung-Su; Kim Han-Ki

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Transparent and flexible Sb-doped SnO2 films with a nanoscale AgTi alloyed interlayer for heat generation and shielding applications

机译：透明和柔性SB掺杂的SnO2薄膜，具有纳米级AgTI合金中间层，用于发热和屏蔽应用

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Transparent and flexible Sb-doped SnO2 (ATO) films with a nanoscale AgTi alloyed interlayer were fabricated for use as plasma damage-free, indium-free, thermally stable electrodes for high performance heat generating films and shielding films in smart windows. The AgTi alloy-inserted ATO film on a PET substrate showed a low sheet resistance of 6.91 ohm per square and a high optical transmittance of 90.24% without thermal annealing or intentional substrate heating. Even after deformation using an outer bending radius of 4 mm, the ATO film with a AgTi interlayer showed a constant sheet resistance due to the mechanical robustness of the AgTi interlayer. Furthermore, the AgTi-inserted ATO film showed a constant resistance even after annealing at 500 degrees C, unlike the Ag-inserted ATO films. Furthermore, we demonstrated the feasibility of the AgTi-inserted ATO films as transparent heat generating films and shielding films for smart windows. The effective heat generation and shield performance of the ATO/Ag-Ti/ATO multilayer suggests that the multi-functional ATO/Ag-Ti/ATO films can be used to create energy-efficient smart windows for building energy management systems and automobiles.

机译：具有纳米级AgTI合金中间层的透明和柔性的SB掺杂的SnO2（ATO）薄膜被制造用作可自由损伤的损伤，无铟，热稳定的电极，用于高性能发热薄膜和智能窗口的屏蔽膜。 PET基板上的AgTI合金插入的ATO膜显示出6.91欧姆/平方6.91欧姆的低型电阻，并且高光学透射率为90.24％，而没有热退火或有意的基底加热。即使在使用外弯曲半径为4mm的变形之后，具有AGTI中间层的ATO膜也显示出由于AgTI中间层的机械稳健性而导致的恒定薄层电阻。此外，与Ag插入的ATO薄膜不同，AgTi插入的ATO膜即使在500℃下退火后也表现出恒定的电阻。此外，我们展示了AgTi插入ATO膜作为透明发热膜和用于智能窗屏蔽膜的可行性。 ATO / AG-TI / ATO多层的有效发热和屏蔽性能表明，多功能ATO / AG-TI / ATO薄膜可用于为建筑能源管理系统和汽车创造节能智能窗口。

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《RSC Advances》 |2018年第5期|共11页
作者
Cho Kyung-Su; Kim Han-Ki;
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Kyung Hee Univ Dept Adv Mat Engn Informat &

Elect 1 Seocheon Yongin 446701 Gyeonggi Do South Korea;

Kyung Hee Univ Dept Adv Mat Engn Informat &

Elect 1 Seocheon Yongin 446701 Gyeonggi Do South Korea;

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正文语种 eng
中图分类化学;
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1. Transparent and flexible Sb-doped SnO2 films with a nanoscale AgTi alloyed interlayer for heat generation and shielding applications [J] . Cho Kyung-Su, Kim Han-Ki RSC Advances . 2018,第5期

机译：透明和柔性SB掺杂的SnO2薄膜，具有纳米级AgTI合金中间层，用于发热和屏蔽应用
2. Transparent and flexible Sb-doped SnO₂ films with a nanoscale AgTi alloyed interlayer for heat generation and shielding applications [J] . Kyung-Su Cho, Han-Ki Kim RSC Advances . 2018,第5期

机译：具有纳米级AgTi合金中间层的透明且柔性的掺Sb的SnO _{2 薄膜，用于发热和屏蔽应用}
3. Tunable Solar-Heat Shielding Property of Transparent Films Based on Mesoporous Sb-Doped SnO2 Microspheres [J] . Li Yusheng, Liu Jie, Liang Jie, ACS applied materials & interfaces . 2015,第12期

机译：基于中孔掺Sb的SnO2微球的透明薄膜可调节的太阳热屏蔽性能
4. High Performance Transparent Conducting Sb-doped SnO2 Films Fabricated by Spray Pyrolysis [C] . Qian Zhao, Xueqing Xu, Gang Xu AMEE 2013 . 2013

机译：高性能透明导电通过喷雾热解制的Sb掺杂的SnO2薄膜
5. Nickel Films for Flexible and Transparent Electrodes in Potential Flexible Applications [D] . Derbeshi, Rola. 2017

机译：用于柔性柔性电极的镍膜，在潜在的灵活应用中
6. Thermally evaporated indium-free transparent flexible SnO2/AgPdCu/SnO2 electrodes for flexible and transparent thin film heaters [O] . Doo-Hee Kim, Kyung-Su Cho, Han-Ki Kim -1

机译：热蒸发的无铟透明柔性SnO2 / AgPdCu / SnO2电极用于柔性和透明薄膜加热器
7. Transparent and flexible Sb-doped SnO2 films with a nanoscale AgTi alloyed interlayer for heat generation and shielding applications [O] . Kyung-Su Cho, Han-Ki Kim 2018

机译：透明和柔性SB掺杂的SnO2薄膜，具有纳米级AgTI合金中间层，用于发热和屏蔽应用
8. Non-Concentrating Collectors for Solar Heating Applications (Medium Temperature Air Heaters Based on Durable Transparent Films). Final Report, September 30, 1977-October 31, 1978 [R] . Leffingwell, J. W., Schwendeman, J. L., Ball, G. L., 1979

机译：用于太阳能加热应用的非浓缩收集器（基于耐用透明薄膜的中温空气加热器）。最终报告，1977年9月30日至1978年10月31日

Transparent and flexible Sb-doped SnO2 films with a nanoscale AgTi alloyed interlayer for heat generation and shielding applications

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