Chirality not only defines molecular“left-right”asymmetry in biological systems,but also achieves high enantioselectivity in modern optoelectronic,information technology,and pharmaceutical industries[1].The helical ...Chirality not only defines molecular“left-right”asymmetry in biological systems,but also achieves high enantioselectivity in modern optoelectronic,information technology,and pharmaceutical industries[1].The helical assembly of chiral molecules can amplify the molecular chirality into macroscopic supramolecular helicity,providing a structural basis for applications such as asymmetric catalysis,charge transport,and circularly polarized emission[2].展开更多
文摘Chirality not only defines molecular“left-right”asymmetry in biological systems,but also achieves high enantioselectivity in modern optoelectronic,information technology,and pharmaceutical industries[1].The helical assembly of chiral molecules can amplify the molecular chirality into macroscopic supramolecular helicity,providing a structural basis for applications such as asymmetric catalysis,charge transport,and circularly polarized emission[2].
