The micron-scale movement of biomolecules along supramolecular pathways -mastered by nature -is a remarkable system requiring strong yet reversible interactions between components under action of a suitable stimulus. Responsive microscopic systems using a variety of stimuli have demonstrated impressive relative molecular motion. However, locating the position of a movable object that travels along selfassembled fibres under an irresistible force has yet to be achieved. Here, we describe a purely supramolecular system where a molecular "traveller" moves along a "path" over several microns when irradiated with visible light. Real time imaging of the motion in the solvated state using total internal reflection fluorescence microscopy shows that anionic porphyrin molecules move along the fibres of a bis-imidazolium gel upon irradiation. Slight solvent changes mean movement and restructuring of the fibres giving microtoroids, indicating control of motion by fibre mechanics with solvent composition. 'The insight provided here may lead to the development of artificial travellers that can perform catalytic and other functions.
Thin films of a chiral diketopyrrolopyrrole derivative were imaged with spatially-defined Mueller Matrix Polarimetry, focussing on the Circular Dichroism signal, giving unique insight into the impact that deposition techniques and...
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