Issue 27, 2022

Engineering colloidally stable, highly fluorescent and nontoxic Cu nanoclusters via reaction parameter optimization

Abstract

Metal nanoclusters (NCs) composed of the least number of atoms (a few to tens) have become very attractive for their emerging properties owing to their ultrasmall size. Preparing copper nanoclusters (Cu NCs) in an aqueous medium with high emission properties, strong colloidal stability, and low toxicity has been a long-standing challenge. Although Cu NCs are earth-abundant and inexpensive, they have been comparatively less explored due to their various limitations, such as ease of surface oxidation, poor colloidal stability, and high toxicity. To overcome these constraints, we established a facile synthetic route by optimizing the reaction parameters, especially altering the effective concentration of the reducing agent, to influence their optical characteristics. The improvement of the photoluminescence intensity and superior colloidal stability was modeled from a theoretical standpoint. Moreover, the as-synthesized Cu NCs showed a significant reduction of toxicity in both in vitro and in vivo models. The possibility of using such Cu NCs as a diagnostic probe toward C. elegans was explored. Also, the extension of our approach toward improving the photoluminescence intensity of the Cu NCs on other ligand systems was demonstrated.

Graphical abstract: Engineering colloidally stable, highly fluorescent and nontoxic Cu nanoclusters via reaction parameter optimization

Supplementary files

Article information

Article type
Paper
Submitted
04 May 2022
Accepted
27 May 2022
First published
14 Jun 2022
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2022,12, 17585-17595

Engineering colloidally stable, highly fluorescent and nontoxic Cu nanoclusters via reaction parameter optimization

K. B. Busi, J. Kotha, S. Bandaru, J. P. Ghantasala, S. Haseena, K. Bhamidipati, N. Puvvada, M. K. Ravva, M. Thondamal and S. Chakrabortty, RSC Adv., 2022, 12, 17585 DOI: 10.1039/D2RA02819K

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