posted on 2015-06-10, 00:00authored byGuang Chu, Xuesi Wang, Tianrui Chen, Jianxiong Gao, Fangyuan Gai, Yu Wang, Yan Xu
Plasmonic
materials with large chiroptical activity at visible wavelength have
attracted considerable attention due to their potential applications
in metamaterials. Here we demonstrate a novel guest–host chiral
nematic liquid crystal film composed of bulk self-co-assembly of the dispersed plasmonic silver nanowires (AgNWs) and
cellulose nanocrystals (CNCs). The AgNWs-CNCs composite films show
strong plasmonic optical activities, that are dependent on the chiral
photonic properties of the CNCs host medium and orientation of the
guest AgNWs. Tunable chiral distribution of the aligned anisotropic
AgNWs with long-range order is obtained through the CNCs liquid crystal
mediated realignment. The chiral plasmonic optical activity of the
AgNWs-CNCs composite films can be tuned by changing the interparticle
electrostatic repulsion between the CNCs nanorods and AgNWs. We also
observe an electromagnetic energy transfer phenomena among the plasmonic
bands of AgNWs, due to the modulation of the photonic band gap of
the CNCs host matrix. This facile approach for fabricating chiral
macrostructured plasmonic materials with optically tunable property
is of interest for a variety of advanced optics applications.