Photoregulative phase change biomaterials showing thermodynamic and mchanical stabilities?
Nanoscale Pub Date: 2021-12-23 DOI: 10.1039/D1NR06000G
Abstract
Azobenzenes are great photochromic molecules for switching the physical properties of various materials via trans–cis isomerization. However, the UV light resulted cis-azobenzene is metastable and thermodynamically gets back to trans-azobenzene after ceasing UV irradiation, which causes an unwanted property change of azobenzene-containing materials. Additionally, thermal and mechanical conditions would accelerate this process dramatically. In this present work, a new type of azobenzene-containing surfactant is designed for the fabrication of photoresponsive phase change biomaterials. With a “l(fā)ocked” cis-azobenzene conformation, the resulting biomaterials could maintain their disordered state after ceasing UV light, which exhibit great resistance to thermal and piezo conditions. Interestingly, the “l(fā)ocked” cis-azobenzene could be unlocked by Vis light in high efficiency, which opens a new way for the design of phase change materials only responding to light. By showing stable cis-azobenzene maintained physical state, the newly fabricated biomaterials provide new potential for the construction of advanced materials, like self-healing materials, with less use of long time UV irradiation for maintaining their disordered states.
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Journal Name:Nanoscale
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CAS no.: 89640-58-4
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