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Light‐Driven Flipping of Azobenzene Assemblies—Sparse Crystal Structures and Responsive Behaviour to Polarised Light

Yoshiyuki Kageyama, Tomonori Ikegami, Shinnosuke Satonaga, Kazuma Obara, Hiroyasu Sato, Sadamu Takeda

2020Chemistry - A European Journal49 citationsDOIOpen Access PDF

Abstract

For creation of autonomous microrobots, which are able to move under conditions of a constant environment and a constant energy supply, a mechanism for maintenance of mechanical motion with a capacity for self-control is required. This requirement, known as self-organisation, represents the ability of a system to evade equilibrium through formation of a spatio-temporal pattern. Following our previous finding of a self-oscillatory flipping motion of an azobenzene-containing co-crystal, we present here regulation of the flipping motion by a light-receiving sensor molecule in relation to the alignment and role of azobenzene molecules in crystals. In the anisotropic structure, a specific azobenzene molecule acts as a reaction centre for the conversion of light to a mechanical function process, whereas the other molecules act as modulators for spatio-pattern regulation. The present results demonstrate that autonomously drivable molecular materials can exhibit information-responsive, self-sustainable motion by incorporating stimulus-responsive sensors.

Topics & Concepts

AzobenzeneMoleculeChemical physicsMaterials scienceNanotechnologyMolecular machineAnisotropyTranslational motionBiological systemClassical mechanicsOpticsPhysicsQuantum mechanicsBiologyAdvanced Materials and MechanicsSupramolecular Self-Assembly in MaterialsMicro and Nano Robotics
Light‐Driven Flipping of Azobenzene Assemblies—Sparse Crystal Structures and Responsive Behaviour to Polarised Light | Litcius