Litcius/Paper detail

Self-assembled materials from cellulose nanocrystals conjugated with a thermotropic liquid crystalline moiety

Francis K. Masese, Dennis Ndaya, Chung‐Hao Liu, Nicholas A. Eddy, M. D. Morales-Acosta, Mu‐Ping Nieh, Rajeswari M. Kasi

2022Soft Matter10 citationsDOI

Abstract

H NMR and supported by other characterization techniques. We investigate the interplay of liquid crystalline orientational order of CNCs and cyanobiphenyl (CB12), and the supramolecular hydrogen bonding of CNCs within CNC-COO-CB12 and compare it with CNC-COOH. The introduction of thermotropic CB12 side chains onto rigid-rod CNCs shows the exclusive formation of smectic mesophases from the assemblies of CB12 with the absence of the cholesteric mesophase typically observed from CNC-COOH as verified by temperature-controlled SAXS (T-SAXS). This is further verified by UV-visible and SEM studies that show CNC-COO-CB12 forms smectic domains while CNC-COOH forms a visible light reflecting cholesteric mesophase in dried films. Thus, the interplay of liquid crystalline order of CNCs and CB12 and supramolecular hydrogen bonding of CNCs results in ordered, smectic-mesostructured CNCs for use in stimuli-responsive functional materials.

Topics & Concepts

Thermotropic crystalSupramolecular chemistryNanocrystalCelluloseMoietyMaterials scienceConjugated systemNanotechnologySmart materialLiquid crystalLiquid crystallineChemical engineeringOrganic chemistryChemistryPolymerMoleculeComposite materialOptoelectronicsEngineeringAdvanced Cellulose Research StudiesLiquid Crystal Research AdvancementsLignin and Wood Chemistry