The chiral self-assembly of functional molecules,polymers and clus-ters into nanoscale objects with well-defined ordering,asymmetry and in some cases out-of-equilibrium characteristics is an important strategy to fabr...The chiral self-assembly of functional molecules,polymers and clus-ters into nanoscale objects with well-defined ordering,asymmetry and in some cases out-of-equilibrium characteristics is an important strategy to fabricate novel materials[1],which might address key challenges at the heart of energy,environmental and biomedical applications.In recent years,subsequent utilization of these nanoscale units as new building blocks to fabricate advanced structures and realize more complex func-tions like those in the biology systems has aroused interests.These at-tempts are originated from the concept of molecular nanotechnology but have gone beyond its boundaries towards the breakthroughs of self-assembled machines,advanced nanoarchitectonics and molecular nanotopology[2,3].展开更多
基金support from the National Natural Science Foundation of China(21890734,21890730 and 21971247)Youth Innovation Promotion Association CAS(2019036)
文摘The chiral self-assembly of functional molecules,polymers and clus-ters into nanoscale objects with well-defined ordering,asymmetry and in some cases out-of-equilibrium characteristics is an important strategy to fabricate novel materials[1],which might address key challenges at the heart of energy,environmental and biomedical applications.In recent years,subsequent utilization of these nanoscale units as new building blocks to fabricate advanced structures and realize more complex func-tions like those in the biology systems has aroused interests.These at-tempts are originated from the concept of molecular nanotechnology but have gone beyond its boundaries towards the breakthroughs of self-assembled machines,advanced nanoarchitectonics and molecular nanotopology[2,3].