Issue 1, 2019

Macroscopic heat release in a molecular solar thermal energy storage system

Abstract

The development of solar energy can potentially meet the growing requirements for a global energy system beyond fossil fuels, but necessitates new scalable technologies for solar energy storage. One approach is the development of energy storage systems based on molecular photoswitches, so-called molecular solar thermal energy storage (MOST). Here we present a novel norbornadiene derivative for this purpose, with a good solar spectral match, high robustness and an energy density of 0.4 MJ kg−1. By the use of heterogeneous catalyst cobalt phthalocyanine on a carbon support, we demonstrate a record high macroscopic heat release in a flow system using a fixed bed catalytic reactor, leading to a temperature increase of up to 63.4 °C (83.2 °C measured temperature). Successful outdoor testing shows proof of concept and illustrates that future implementation is feasible. The mechanism of the catalytic back reaction is modelled using density functional theory (DFT) calculations rationalizing the experimental observations.

Graphical abstract: Macroscopic heat release in a molecular solar thermal energy storage system

Supplementary files

Article information

Article type
Paper
Submitted
06 Apr 2018
Accepted
15 Aug 2018
First published
20 Aug 2018
This article is Open Access
Creative Commons BY license

Energy Environ. Sci., 2019,12, 187-193

Macroscopic heat release in a molecular solar thermal energy storage system

Z. Wang, A. Roffey, R. Losantos, A. Lennartson, M. Jevric, A. U. Petersen, M. Quant, A. Dreos, X. Wen, D. Sampedro, K. Börjesson and K. Moth-Poulsen, Energy Environ. Sci., 2019, 12, 187 DOI: 10.1039/C8EE01011K

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