Photoswitchable Dihydroazulene Macrocycles for Solar Energy Storage: The Effects of Ring Strain

Alexandru Vlasceanu, Benjamin N. Frandsen, Anders Bo Skov, Anne Schou Hansen, Mads Georg Rasmussen, Henrik Grum Kjærgaard, Kurt Valentin Mikkelsen, Mogens Brøndsted Nielsen

18 Citations (Scopus)

Abstract

Efficient energy storage and release are two major challenges of solar energy harvesting technologies. The development of molecular solar thermal systems presents one approach to address these issues by tuning the isomerization reactions of photo/ thermoswitches. Here we show that the incorporation of photoswitches into macrocyclic structures is a particularly attractive solution for increasing the storage time. We present the synthesis and properties of a series of macrocycles incorporating two dihydroazulene (DHA) photoswitching subunits, bridged by linkers of varying chain length. Independent of ring size, all macrocycles exhibit stepwise, light-induced, ring-opening reactions (DHA-DHA to DHAVHF to VHF-VHF; VHF = vinylheptafulvene) with the first DHA undergoing isomerization with a similar efficiency as the uncyclized parent system while the second (DHA-VHF to VHF-VHF) is significantly slower. The energy-releasing, VHF-to-DHA, ring closures also occur in a stepwise manner and are systematically found to proceed slower in the more strained (smaller) cycles, but in all cases with a remarkably slow conversion of the second VHF to DHA. We managed to increase the half-life of the second VHF-to-DHA conversion from 65 to 202 h at room temperature by simply decreasing the ring size. A computational study reveals the smallest macrocycle to have the most energetic VHF-VHF state and hence highest energy density.

Original languageEnglish
JournalThe Journal of Organic Chemistry
Volume82
Issue number19
Pages (from-to)10398-10407
Number of pages10
ISSN0022-3263
DOIs
Publication statusPublished - 6 Oct 2017

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