Shah Rishabh A, Frazar Erin Molly, Hilt James Zach
Department of Chemical and Materials Engineering, University of Kentucky, Lexington, KY 40506, USA.
Curr Opin Chem Eng. 2020 Dec;30:103-111. doi: 10.1016/j.coche.2020.08.007. Epub 2010 Sep 29.
Bionanotechnology is an ever-expanding field as innovations in nanotechnology continue to be developed based on biological systems or to be applied to address unmet needs in biology, biomedicine, ., including various sensor and drug delivery solutions. Amidst the wide range of bionanomaterials that have been developed, stimuli responsive bionanomaterials are of particular interest and are thus emphasized within this review. Here, we have highlighted the most recent advances for stimuli responsive bionanomaterials with focus on those possessing responses based on activation, expansion/contraction and self-assembly/disassembly. The aim of this review is to bring attention to some of the most current bionanotechnology research and the interesting applications within this field.
随着纳米技术的创新不断基于生物系统得以发展,或被应用于满足生物学、生物医学等领域尚未满足的需求,包括各种传感器和药物递送解决方案,生物纳米技术是一个不断扩展的领域。在已开发的众多生物纳米材料中,刺激响应性生物纳米材料尤为引人关注,因此在本综述中予以重点强调。在此,我们着重介绍了刺激响应性生物纳米材料的最新进展,重点关注那些基于激活、膨胀/收缩和自组装/拆卸而产生响应的材料。本综述的目的是引起人们对一些当前最新的生物纳米技术研究以及该领域有趣应用的关注。
