Highly intricate surface architectures derived from patterned polymer microstructures have received increasing concern in recent years.Directional photo-manipulation(DPM)of azopolymers is one of the effective strategi...Highly intricate surface architectures derived from patterned polymer microstructures have received increasing concern in recent years.Directional photo-manipulation(DPM)of azopolymers is one of the effective strategies to tune the patterned polymer microstructures through directional mass migration(DMM)upon polarized light illumination.In this feature article,we emphasize the latest advances of DPM on azopatterns created by self-assembly.The mechanism of DMM,the photo-manipulation performance,and functions of manipulated patterns are introduced in sequence.As presented,DPM can manipulate the as-prepared microstructures feasibly by taking the advantages of non-contacting and nondestructive characters.Moreover,the challenges and opportunities of DPM strategy are discussed in conclusion.展开更多
基金financially supported by the National Natural Science Foundation of China(Nos.51622301 and 51573046)Projects of Shanghai Municipality(Nos.14SG29 and 17JC400700)Fundamental Research Funds for the Central Universities(No.222201718002)
文摘Highly intricate surface architectures derived from patterned polymer microstructures have received increasing concern in recent years.Directional photo-manipulation(DPM)of azopolymers is one of the effective strategies to tune the patterned polymer microstructures through directional mass migration(DMM)upon polarized light illumination.In this feature article,we emphasize the latest advances of DPM on azopatterns created by self-assembly.The mechanism of DMM,the photo-manipulation performance,and functions of manipulated patterns are introduced in sequence.As presented,DPM can manipulate the as-prepared microstructures feasibly by taking the advantages of non-contacting and nondestructive characters.Moreover,the challenges and opportunities of DPM strategy are discussed in conclusion.
