在铜箔上快速、简单地沉积纳米 Cu2-xS 薄膜,通过光热电转换收集太阳能

IF 9 2区 材料科学 Q1 CHEMISTRY, PHYSICAL Materials Today Energy Pub Date : 2024-02-29 DOI:10.1016/j.mtener.2024.101544
Abbas Karami, Saeid Azizian
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引用次数: 0

摘要

利用热电发电机(TEG)装置收集太阳能是一种被忽视但实用的可持续发电策略。通过将 TEG 与太阳能吸收器集成,可将太阳辐射转化为电能。因此,开发太阳能吸收器对于提高 TEG 设备的性能以实现高效光热转换至关重要。在此,我们提出了一种简单而经济有效的方法,在铜板基底上制备稳定的纳米硫化铜薄膜,只需几秒钟即可完成。该方法可在铜箔表面形成垂直生长的硫化铜纳米片混合物(x=0.03、0.05 和 1),并具有紧密的多孔簇状结构。所制备的铜箔@CuS纳米片具有优异的光热特性,在强度为500 W/m的灯管照射下,3-4分钟内就能达到65°C的温度。在太阳能热发电(STEG)系统中将铜箔@CuS纳米片用作太阳能吸收器时,其输出功率比裸热电模块有显著提高。该研究强调了 CuS 纳米片在 STEG 中作为太阳能吸收器的潜力。
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Fast and simple deposition of thin film of Cu2-xS nanosheets on copper foil for solar energy harvesting via photo-thermo-electric conversion
Solar energy harvesting using thermoelectric generator (TEG) devices is an overlooked but practical strategy for sustainable power generation. Solar radiation can be converted to electricity by integrating TEGs with solar absorbers. Therefore, developing solar absorbers is crucial to enhance the performance of TEG devices for efficient photo-thermo-electric conversion. Here, we presented a simple and cost-effective method to prepare a stable thin film of copper sulfide nanosheets on a copper plate substrate, taking only a few seconds to complete. This method led to forming a mixture of CuS nanosheets (x=0.03, 0.05, and 1) vertically grown on the surface of the copper foil and possessed tightly packed porous clustered structures. The prepared Cu-foil@CuS nanosheets demonstrated exceptional photothermal characteristics, achieving a temperature of 65°C within 3-4 minutes when exposed to the illumination of a lamp with an intensity of 500 W/m. There was a significant increase in power output compared to bare thermoelectric modules when the Cu-foil@CuS nanosheets were used as solar absorbers in a solar-thermo-electric generator (STEG) system. The study highlights the potential of CuS nanosheets as solar absorbers in STEGs.
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来源期刊
Materials Today Energy
Materials Today Energy Materials Science-Materials Science (miscellaneous)
CiteScore
15.10
自引率
7.50%
发文量
291
审稿时长
15 days
期刊介绍: Materials Today Energy is a multi-disciplinary, rapid-publication journal focused on all aspects of materials for energy. Materials Today Energy provides a forum for the discussion of high quality research that is helping define the inclusive, growing field of energy materials. Part of the Materials Today family, Materials Today Energy offers authors rigorous peer review, rapid decisions, and high visibility. The editors welcome comprehensive articles, short communications and reviews on both theoretical and experimental work in relation to energy harvesting, conversion, storage and distribution, on topics including but not limited to: -Solar energy conversion -Hydrogen generation -Photocatalysis -Thermoelectric materials and devices -Materials for nuclear energy applications -Materials for Energy Storage -Environment protection -Sustainable and green materials
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