Light-stimulated molecular and supramolecular systems for information processing and beyond
Review article, 2021

In this Review the use of light to address stimuli-responsive molecular and supramolecular systems with applications in information processing and binary logic is discussed. Molecular photoswitches are at the focal point of the herein summarized works. Light offers great advantages in terms of spatiotemporal control and remote triggering. As an additional surplus, excited state processes, such as energy- and electron-transfer can be precisely designed such that photoswitchable systems yield the desired logic operation or function. As opposed to chemical signals, photons are traceless reagents, enabling the recycled operation and reconfiguration of the discussed devices. The herein in an account-style summarized examples provide an overview of merging photoswitching with information processing, hopefully serving as a starting point for further research in this exciting field.

Photoswitches

Photochemistry

Molecular logic

Multiphotochromic systems

Supramolecular chemistry

Author

Joakim Andreasson

Chalmers, Chemistry and Chemical Engineering, Chemistry and Biochemistry

Uwe Pischel

University of Huelva

Coordination Chemistry Reviews

0010-8545 (ISSN)

Vol. 429 213695

Subject Categories

Chemical Engineering

Atom and Molecular Physics and Optics

DOI

10.1016/j.ccr.2020.213695

More information

Latest update

12/21/2020