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      Norbornadiene-Based Photoswitches with Exceptional Combination of Solar Spectrum Match and Long-Term Energy Storage

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          Templated assembly of photoswitches significantly increases the energy-storage capacity of solar thermal fuels.

          Large-scale utilization of solar-energy resources will require considerable advances in energy-storage technologies to meet ever-increasing global energy demands. Other than liquid fuels, existing energy-storage materials do not provide the requisite combination of high energy density, high stability, easy handling, transportability and low cost. New hybrid solar thermal fuels, composed of photoswitchable molecules on rigid, low-mass nanostructures, transcend the physical limitations of molecular solar thermal fuels by introducing local sterically constrained environments in which interactions between chromophores can be tuned. We demonstrate this principle of a hybrid solar thermal fuel using azobenzene-functionalized carbon nanotubes. We show that, on composite bundling, the amount of energy stored per azobenzene more than doubles from 58 to 120 kJ mol(-1), and the material also maintains robust cyclability and stability. Our results demonstrate that solar thermal fuels composed of molecule-nanostructure hybrids can exhibit significantly enhanced energy-storage capabilities through the generation of template-enforced steric strain.
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            Molecular solar thermal (MOST) energy storage and release system

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              Designing photoswitches for molecular solar thermal energy storage

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                Author and article information

                Journal
                Chemistry - A European Journal
                Chem. Eur. J.
                Wiley
                09476539
                September 03 2018
                September 03 2018
                August 16 2018
                : 24
                : 49
                : 12767-12772
                Affiliations
                [1 ]Department of Chemistry and Chemical Engineering; Chalmers University of Technology; 41296 Gothenburg Sweden
                [2 ]Department of Chemistry; University of Copenhagen; Universitetsparken 5 2100 Copenhagen Ø Denmark
                [3 ]Department of Physics; Chalmers University of Technology; 41296 Gothenburg Sweden
                [4 ]Department of Chemistry; School of Physical Sciences; The University of Adelaide; SA 5005 Australia
                [5 ]Department of Chemistry and Molecular Biology; University of Gothenburg; 41296 Sweden
                Article
                10.1002/chem.201802932
                29978927
                94511205-f57a-4cab-a481-ee7007cc5e91
                © 2018

                http://doi.wiley.com/10.1002/tdm_license_1.1

                http://onlinelibrary.wiley.com/termsAndConditions#vor

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