Temperature-induced helix inversion in naphthyl-based cholesteric liquid crystals

Ožegović, Antonija; Šimanović, Aleksandra; Dokli, Irena; Davidson, Patrick; Dozov, Ivan; Novak, Jurica; Knežević, Anamarija; Lesac, Andreja (2025) Temperature-induced helix inversion in naphthyl-based cholesteric liquid crystals. Materials chemistry frontiers, 9 (19). pp. 2900-2908. ISSN 2052-1537

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Abstract

Achieving precise control over macroscopic chirality in self-organized systems is a key challenge in the development of advanced supramolecular functional materials. Here, we report a novel class of liquid crystalline compounds bearing a single chiral center, which exhibit reversible, thermally-induced helix inversion in the cholesteric phase. The (S)-naphthyl-3-hydroxypropanoic moiety is identified as the critical structural fragment responsible for this rare behavior. Remarkably, the helix inversion can be transferred from the pure chiral compound to an achiral nematic host, at guest concentrations as low as 6%, preserving the characteristic transition from a high-temperature left-handed helix to a low-temperature right-handed one. This also enables precise tuning of the helix inversion temperature across an exceptionally broad range – from below room temperature up to 114 °C. Importantly, structural modifications to the alkyl ester moiety do not suppress helix inversion, allowing for targeted tuning of inversion temperature, host compatibility, and potential incorporation of additional stimuli-responsive functions. The combination of thermally-induced helix inversion, the ability to transfer this unique feature to an achiral host, and the wide temperature range over which this inversion can be adjusted makes these new chiral mesogens a versatile molecular platform for designing thermoresponsive chiral materials.

Item Type:	Article
Uncontrolled Keywords:	Chirality transfer; helix inversion; liquid crystals; thermo-switching properties
Subjects:	NATURAL SCIENCES > Chemistry > Organic Chemistry
Divisions:	Center for Informatics and Computing Division of Organic Chemistry and Biochemistry
Projects:	Project title Project leader Project code Project type Strukturna kiralnost vs molekulska kiralnost-SMChiral Andreja Lesac; Jurica Novak IP-2019-04-7978 HRZZ Supramolekulske tubularne arhitekture kao nanoreaktori za organokatalizu u vodi Anamarija Knežević NPOO.C3.2.R2-I1.06.0042 EU
Depositing User:	Antonija Ožegović
Date Deposited:	25 Sep 2025 11:37
URI:	http://fulir.irb.hr/id/eprint/10023
DOI:	10.1039/D5QM00456J

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