Schneider Hans-Jörg
FR Organische Chemie der, Universität des Saarlandes, 66123, Saarbrücken, Germany.
Chemphyschem. 2017 Sep 6;18(17):2306-2313. doi: 10.1002/cphc.201700186. Epub 2017 Aug 11.
Chemomechanical polymers that change their shape or volume on stimulation by multiple external chemical signals, particularly on the basis of selective molecular recognition, are discussed. Several examples illustrate how such materials, usually in the form of hydrogels, can be used for the design of chemically triggered valves or artificial muscles and applied, for example, in self-healing materials or drug delivery. The most attractive feature of such materials is that they can combine sensor and actuator within single units, from nano- to macrosize. Simultaneous action of a cofactor allows selective response in the sense of AND logic gates by, for example, amino acids and peptides, which without the presence of a second effector do not induce any changes.
本文讨论了化学机械聚合物,这类聚合物在多种外部化学信号的刺激下会改变其形状或体积,特别是基于选择性分子识别的情况。几个例子说明了这类通常呈水凝胶形式的材料如何用于设计化学触发阀或人造肌肉,并应用于例如自修复材料或药物递送等领域。这类材料最吸引人的特点是它们能够在单个单元内将传感器和致动器结合起来,尺寸范围从纳米到宏观。例如,辅因子的同时作用允许氨基酸和肽等在与逻辑门的意义上产生选择性响应,而在没有第二种效应物存在的情况下不会引起任何变化。
