[논문]Super-hydrophilic broadband anti-reflective coating with high weather stability for solar and optical applications

Joshi, Dhavalkumar N.; Atchuta, S.R.; Lokeswara Reddy, Y.; Naveen Kumar, Arkoti; Sakthivel, S.

doi:10.1016/j.solmat.2019.110023

Super-hydrophilic broadband anti-reflective coating with high weather stability for solar and optical applications

Solar energy materials and solar cells : an international journal devoted to photovoltaic, photothermal, and photochemical solar energy conversion, v.200, 2019년, pp.110023 -

Joshi, Dhavalkumar N. (Corresponding author.) , Atchuta, S.R. , Lokeswara Reddy, Y. , Naveen Kumar, Arkoti , Sakthivel, S.

Abstract ▼ AI-Helper

Abstract The development of Broadband Antireflective Coatings (B-ARC) plays a vital role in the accomplishment of more competitive architectural glasses for renewable solar energy applications. In this respect, coatings that provide dual properties like high transmittance and easy-to-clean property, along with weather & UV stabilities could mean an added value to such architectural glasses especially for Solar Photovoltaic (PV) and Concentrated Solar Thermal (CST) applications. Herein we report the design and preparation of novel hybrid B-ARC with other functional properties like super-hydrophilic (easy-to-clean/antifogging property), weather and UV stability developed by using a facile sol-gel process. Film-thickness and morphology were optimized by varying the synthesis parameters, coating thickness and curing temperatures; to achieve dual characteristics for the coating. The developed broadband anti-reflective coating shows an average solar transmittance of 98.1% in the visible region (400–800 nm) and 96.6% in the active solar region (300–1500 nm). It is noteworthy that B-ARC generated by this method shows super-hydrophilic property with high weather and UV stabilities (withstand 100 h in high accelerated weather test). Highlights A novel synthesis route of SiO2-MgF2 hybrid Sol has been developed. The thin film has dual-functional (Superhydrophilic cum anti-reflective) property. Observed >5% transmission improvement with super-hydrophilic (<6°) property. Films has good weather stability and may have a practical applications.

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Super-hydrophilic broadband anti-reflective coating with high weather stability for solar and optical applications

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