Garifullin Ruslan, Guler Mustafa O
Institute of Fundamental Medicine and Biology, Kazan Federal University, 420021 Kazan, Russian Federation.
The Pritzker School of Molecular Engineering, The University of Chicago, Chicago, IL, 60637, USA.
Mater Today Bio. 2021 Feb 11;10:100099. doi: 10.1016/j.mtbio.2021.100099. eCollection 2021 Mar.
The electroactivity as a supramolecular feature of intelligently designed self-assembled systems stimulates a wide interest in development of new stimuli-responsive biomaterials. A diverse set of nanostructures are fabricated through programmed self-assembly of molecules for functional materials. Electroactive groups are conjugated as a functional moiety for organic semiconductor applications. In this review, we present recent examples of self-assembling peptide molecules and electroactive units for supramolecular functional electronic and optical materials with potential biomedical and bioelectronics applications.
作为智能设计的自组装系统的超分子特征,电活性激发了人们对开发新型刺激响应生物材料的广泛兴趣。通过分子的程序化自组装制备了各种用于功能材料的纳米结构。电活性基团作为有机半导体应用的功能部分进行共轭。在本综述中,我们展示了用于具有潜在生物医学和生物电子应用的超分子功能电子和光学材料的自组装肽分子和电活性单元的最新实例。
