An Artificial Nocturnal Flower Via Humidity-Gated Photoactuation in Liquid Crystal Networks
Overview
Affiliations
Beyond their colorful appearances and versatile geometries, flowers can self-shape-morph by adapting to environmental changes. Such responses are often regulated by a delicate interplay between different stimuli such as temperature, light, and humidity, giving rise to the beauty and complexity of the plant kingdom. Nature inspires scientists to realize artificial systems that mimic their natural counterparts in function, flexibility, and adaptation. Yet, many of the artificial systems demonstrated to date fail to mimic the adaptive functions, due to the lack of multi-responsivity and sophisticated control over deformation directionality. Herein, a new class of liquid-crystal-network (LCN) photoactuators whose response is controlled by delicate interplay between light and humidity is presented. Using a novel deformation mechanism in LCNs, humidity-gated photoactuation, an artificial nocturnal flower is devised that is closed under daylight conditions when the humidity level is low and/or the light level is high, while it opens in the dark when the humidity level is high. The humidity-gated photoactuators can be fueled with lower light intensities than conventional photothermal LCN actuators. This, combined with facile control over the speed, geometry, and directionality of movements, renders the "nocturnal actuator" promising for smart and adaptive bioinspired microrobotics.
Hydrogen-bonded multi-mode liquid crystal elastomer actuators.
Nasare R, Guo H, Priimagi A J Mater Chem B. 2025; 13(5):1704-1711.
PMID: 39749635 PMC: 11696861. DOI: 10.1039/d4tb02228a.
A bionic mimosa soft robot based on a multi-responsive PNIPAM-PEGDA hydrogel composition.
Yang W, Wang X, Teng X, Qiao Z, Yu H, Yuan Z Biomicrofluidics. 2024; 18(3):034102.
PMID: 38726372 PMC: 11078265. DOI: 10.1063/5.0203482.
Light-driven soft microrobots based on hydrogels and LCEs: development and prospects.
Gao Y, Wang X, Chen Y RSC Adv. 2024; 14(20):14278-14288.
PMID: 38694551 PMC: 11062240. DOI: 10.1039/d4ra00495g.
Biomimetic Venus Flytrap Structures Using Smart Composites: A Review.
Wang B, Hou Y, Zhong S, Zhu J, Guan C Materials (Basel). 2023; 16(20).
PMID: 37895684 PMC: 10608135. DOI: 10.3390/ma16206702.
Recent Developments of Photodeformable Polymers: From Materials to Applications.
Kong S, Wang H, Ubba E, Xiao Y, Yu T, Huang W Research (Wash D C). 2023; 6:0242.
PMID: 37779636 PMC: 10540999. DOI: 10.34133/research.0242.