Issue 47, 2023

A supramolecular assembly-based strategy towards the generation and amplification of photon up-conversion and circularly polarized luminescence

Abstract

For the molecular properties in which energy transfer/migration is determinantal, such as triplet–triplet annihilation-based photon up-conversion (TTAUC), the overall performance is largely affected by the intermolecular distance and relative molecular orientations. In such scenarios, tools that may steer the intermolecular interactions and provide control over molecular organisation in the bulk, become most valuable. Often these non-covalent interactions, found predominantly in supramolecular assemblies, enable pre-programming of the molecular network in the assembled structures. In other words, by employing supramolecular chemistry principles, an arrangement where molecular units are arranged in a desired fashion, very much like a Lego toy, could be achieved. This leads to enhanced energy transfer from one molecule to other. In recent past, chiral luminescent systems have attracted huge attention for producing circularly polarized luminescence (CPL). In such systems, chirality is a necessary requirement. Chirality induction/transfer through supramolecular interactions has been known for a long time. It was realized recently that it may help in the generation and amplification of CPL signals as well. In this review article we have discussed the applicability of self-/co-assembly processes for achieving maximum TTA-UC and CPL in various molecular systems.

Graphical abstract: A supramolecular assembly-based strategy towards the generation and amplification of photon up-conversion and circularly polarized luminescence

Article information

Article type
Review Article
Submitted
21 ago 2023
Accepted
07 nov 2023
First published
09 nov 2023

Nanoscale, 2023,15, 18999-19015

A supramolecular assembly-based strategy towards the generation and amplification of photon up-conversion and circularly polarized luminescence

A. Sengupta, G. Roy, A. R. Likhar and D. Asthana, Nanoscale, 2023, 15, 18999 DOI: 10.1039/D3NR04184K

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