Michael G. Debije scite author profile

We describe at the quantum-chemical level the main parameters that control charge transport at the molecular scale in discotic liquid crystals. The focus is on stacks made of triphenylene, hexaazatriphenylene, hexaazatrinaphthylene, and hexabenzocoronene molecules and derivatives thereof. It is found that a subtle interplay between the chemical structure of the molecules and their relative positions within the stacks determines the charge transport properties; the molecular features required to promote high charge mobilities in discotic materials are established on the basis of the calculated structure-property relationships. We predict a significant increase in the charge mobility when going from triphenylene to hexaazatrinaphthylene; this finding has been confirmed by measurements carried out with the pulse-radiolysis time-resolved microwave conductivity technique.

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A chaotic self-oscillating sunlight-driven polymer actuator

Kumar¹,

Knie²,

Bléger³

et al. 2016

Nat Commun

373

273

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Nature provides much inspiration for the design of materials capable of motion upon exposure to external stimuli, and many examples of such active systems have been created in the laboratory. However, to achieve continuous motion driven by an unchanging, constant stimulus has proven extremely challenging. Here we describe a liquid crystalline polymer film doped with a visible light responsive fluorinated azobenzene capable of continuous chaotic oscillatory motion when exposed to ambient sunlight in air. The presence of simultaneous illumination by blue and green light is necessary for the oscillating behaviour to occur, suggesting that the dynamics of continuous forward and backward switching are causing the observed effect. Our work constitutes an important step towards the realization of autonomous, persistently self-propelling machines and self-cleaning surfaces powered by sunlight.

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Tetrachloro‐substituted Perylene Bisimide Dyes as Promising n‐Type Organic Semiconductors: Studies on Structural, Electrochemical and Charge Transport Properties

et al. 2004

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Michael G. Debije

Charge Transport Properties in Discotic Liquid Crystals: A Quantum-Chemical Insight into Structure−Property Relationships

A chaotic self-oscillating sunlight-driven polymer actuator

Tetrachloro‐substituted Perylene Bisimide Dyes as Promising n‐Type Organic Semiconductors: Studies on Structural, Electrochemical and Charge Transport Properties

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