溶剂变色
蒸汽
材料科学
湿度
溶剂
化学
共价键
多孔性
超分子化学
纳米技术
化学工程
分子
有机化学
热力学
物理
工程类
生物
复合材料
神经科学
作者
Laura Ascherl,Emrys W. Evans,Matthias Hennemann,Daniele Di Nuzzo,Alexander G. Hufnagel,Michael Beetz,Richard H. Friend,Timothy Clark,Thomas Bein,Florian Auras
标识
DOI:10.1038/s41467-018-06161-w
摘要
Abstract Covalent organic frameworks (COFs) are an emerging class of highly tuneable crystalline, porous materials. Here we report the first COFs that change their electronic structure reversibly depending on the surrounding atmosphere. These COFs can act as solid-state supramolecular solvatochromic sensors that show a strong colour change when exposed to humidity or solvent vapours, dependent on vapour concentration and solvent polarity. The excellent accessibility of the pores in vertically oriented films results in ultrafast response times below 200 ms, outperforming commercially available humidity sensors by more than an order of magnitude. Employing a solvatochromic COF film as a vapour-sensitive light filter, we demonstrate a fast humidity sensor with full reversibility and stability over at least 4000 cycles. Considering their immense chemical diversity and modular design, COFs with fine-tuned solvatochromic properties could broaden the range of possible applications for these materials in sensing and optoelectronics.
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