A light-driven nanoscale chiral molecular switch was found to impart its chirality to an achiral liquid crystal host to form a self-organized, optically tunable helical superstructure capable of fast and reversible phototuning of the structural reflection across the entire visible region.</p
The controlled writing and deleting of topological states in soft matter systems is addressed. The r...
Circular polarized light is utilized in communication and display technologies and a major challenge...
Liquid crystal owing to its anisotropic properties is an ideal intermedia for molecular action ampli...
Two light-driven molecular switches with tetrahedral and axial chirality were synthesized, which can...
We demonstrate the ultra-sensitive detection of molecular chirality experimentally, by investigating...
Development of light-driven functional materials capable of displaying reversible properties is curr...
Adding external, remote, and dynamic control to self-organized superstructures with desired properti...
Unravelling the rules of molecular motion is a contemporary challenge that promises to support the d...
Adding external, dynamic control to self-organized superstructures with desired functionalities is a...
Adding external, dynamic control to self-organized superstructures with desired functionalities is a...
The tendency for miniaturization in electronic devices has created the need for materials capable of...
The dynamic manipulation of the properties of soft matter can lead to adaptive functional materials ...
The controlled writing and deleting of topological states in soft matter systems is addressed. The r...
The controlled writing and deleting of topological states in soft matter systems is addressed. The r...
Circular polarized light is utilized in communication and display technologies and a major challenge...
Liquid crystal owing to its anisotropic properties is an ideal intermedia for molecular action ampli...
Two light-driven molecular switches with tetrahedral and axial chirality were synthesized, which can...
We demonstrate the ultra-sensitive detection of molecular chirality experimentally, by investigating...
Development of light-driven functional materials capable of displaying reversible properties is curr...
Adding external, remote, and dynamic control to self-organized superstructures with desired properti...
Unravelling the rules of molecular motion is a contemporary challenge that promises to support the d...
Adding external, dynamic control to self-organized superstructures with desired functionalities is a...
Adding external, dynamic control to self-organized superstructures with desired functionalities is a...
The tendency for miniaturization in electronic devices has created the need for materials capable of...
The dynamic manipulation of the properties of soft matter can lead to adaptive functional materials ...
The controlled writing and deleting of topological states in soft matter systems is addressed. The r...
The controlled writing and deleting of topological states in soft matter systems is addressed. The r...
Circular polarized light is utilized in communication and display technologies and a major challenge...
Liquid crystal owing to its anisotropic properties is an ideal intermedia for molecular action ampli...
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