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Effect of Fullerene Volume Fraction on Two‐Dimensional Crystal‐Constructed Supramolecular Liquid Crystals
Author(s) -
Shen Peng,
Zhang Xiaoyan,
Lu Huanjun,
Su Zebin,
Zhou Yi,
Song Bo,
Li Xiaohong,
Yang Xiaoming,
Tu Yingfeng,
Li Christopher Y.
Publication year - 2019
Publication title -
chemistry – an asian journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.18
H-Index - 106
eISSN - 1861-471X
pISSN - 1861-4728
DOI - 10.1002/asia.201801334
Subject(s) - fullerene , volume fraction , stacking , phase (matter) , materials science , lamella (surface anatomy) , liquid crystal , supramolecular chemistry , crystal (programming language) , crystallography , layer (electronics) , fraction (chemistry) , volume (thermodynamics) , chemical physics , crystal structure , nanotechnology , chemistry , organic chemistry , thermodynamics , composite material , optoelectronics , computer science , programming language , physics
The volume fraction plays an important role in phase segregated soft matters. We demonstrate here that at high fullerene volume fraction in soft chain‐tethered‐fullerene dyads, different two‐dimensional (2D) crystal‐constructed smectic‐like lamella liquid crystalline (LC) phases can be formed with triple‐layer (S T phase) or quadruple‐layer (S Q phase) stacking of fullerenes in 2D crystals. The combination of 2D crystal and LC properties in one system affords these fullerene dyads controlled electron mobility in the range of 10 −5 –10 −3 cm 2 V −1 s −1 at room temperature (S T phase), by regulating the insulated soft layer thickness between 2D crystals via the manipulation of fullerene volume fraction.