Journal
JOURNAL OF MATERIALS CHEMISTRY A
Volume 9, Issue 15, Pages 9798-9808Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1ta01007g
Keywords
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Funding
- SPROUT award from Brandeis Office of Technology Licensing [2019-042]
- Brandeis NSF MRSEC, Bioinspired Soft Materials [DMR-2011486]
- Provost Research Award from Brandeis University
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This study presents a photo-responsive organic phase change material that can store both latent heat and photon energy by absorbing filtered solar radiation. The activation of photo-switches by long wavelengths in the absence of high-intensity light sources is achieved by ortho-substitution of azobenzene units. The liquid phase activated by sunlight shows long heat storage without crystallization for nearly two months, with energy release triggered by short irradiation at a specific wavelength.
We report the design of photo-responsive organic phase change materials that can absorb filtered solar radiation to store both latent heat and photon energy via simultaneous phase transition and photo-isomerization. The activation of photo-switches by long wavelengths >= 530 nm in the visible light range at a low irradiance is achieved, in the absence of high-intensity light sources, by the ortho-substitution of azobenzene units. The facile transition from crystalline to liquid phase is enabled by appending an aliphatic group on the photochromic moiety. The sunlight-activated liquid phase exhibits an exceptionally long heat storage without crystallization for nearly two months, and the release of energy is triggered by a short irradiation at 430 nm. The successful demonstration of photo-controlled latent heat storage accomplished by solar irradiation opens a new horizon on solar energy harvesting by functional organic materials, as a complementary system to photocatalysts and photovoltaic materials.
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