High‐Power Actuation from Molecular Photoswitches in Enantiomerically Paired Soft Springs
Abstract: Motion in plants often relies on dynamic helical systems as seen in coiling tendrils, spasmoneme springs, and the opening of chiral seedpods. Developing nanotechnology that would allow molecular‐level phenomena to drive such movements in artificial systems remains a scientific challenge. Herein, we describe a soft device that uses nanoscale information to mimic seedpod opening. The system exploits a fundamental mechanism of stimuli‐responsive deformation in plants, namely that inflexible elements with specific orientations are integrated into a stimuli‐responsive matrix. The device is operated by isomerization of a light‐responsive molecular switch that drives the twisting of strips of liquid‐crystal elastomers. The strips twist in opposite directions and work against each other until the pod pops open from stress. This mechanism allows the photoisomerization of molecular switches to stimulate rapid shape changes at the macroscale and thus to maximize actuation power.
- Location
-
Deutsche Nationalbibliothek Frankfurt am Main
- Extent
-
Online-Ressource
- Language
-
Englisch
- Bibliographic citation
-
High‐Power Actuation from Molecular Photoswitches in Enantiomerically Paired Soft Springs ; volume:56 ; number:12 ; year:2017 ; pages:3261-3265 ; extent:5
Angewandte Chemie / International edition. International edition ; 56, Heft 12 (2017), 3261-3265 (gesamt 5)
- Creator
-
Aßhoff, Sarah J.
Lancia, Federico
Iamsaard, Supitchaya
Matt, Benjamin
Kudernac, Tibor
Fletcher, Stephen P.
Katsonis, Nathalie
- DOI
-
10.1002/anie.201611325
- URN
-
urn:nbn:de:101:1-2022092010425154130209
- Rights
-
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
-
15.08.2025, 7:20 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Aßhoff, Sarah J.
- Lancia, Federico
- Iamsaard, Supitchaya
- Matt, Benjamin
- Kudernac, Tibor
- Fletcher, Stephen P.
- Katsonis, Nathalie
Other Objects (12)
High‐Power Actuation from Molecular Photoswitches in Enantiomerically Paired Soft Springs
Molecular photoswitches, Volume 2
Molecular photoswitches, Volume 1
Water‐Soluble Arylazoisoxazole Photoswitches
Enlightening Materials with Photoswitches
Enlightening Materials with Photoswitches
Human actuation
Diarylathene photoswitches bearing carbonyl functionalities
Main‐chain Macromolecular Hydrazone Photoswitches
Diarylethene molecular photoswitches : concepts and functionalities
The azobenzene scaffold in multinary photoswitches
Highly Efficient Oxindole‐Based Molecular Photoswitches
High‐Power Actuation from Molecular Photoswitches in Enantiomerically Paired Soft Springs
Molecular photoswitches, Volume 2
Molecular photoswitches, Volume 1
Water‐Soluble Arylazoisoxazole Photoswitches
Enlightening Materials with Photoswitches
Enlightening Materials with Photoswitches
Human actuation
Diarylathene photoswitches bearing carbonyl functionalities
Main‐chain Macromolecular Hydrazone Photoswitches
Diarylethene molecular photoswitches : concepts and functionalities
The azobenzene scaffold in multinary photoswitches
Highly Efficient Oxindole‐Based Molecular Photoswitches
High‐Power Actuation from Molecular Photoswitches in Enantiomerically Paired Soft Springs
Molecular photoswitches, Volume 2
Molecular photoswitches, Volume 1
Water‐Soluble Arylazoisoxazole Photoswitches
Enlightening Materials with Photoswitches
Enlightening Materials with Photoswitches
Human actuation
Diarylathene photoswitches bearing carbonyl functionalities
Main‐chain Macromolecular Hydrazone Photoswitches
Diarylethene molecular photoswitches : concepts and functionalities
The azobenzene scaffold in multinary photoswitches