Issue 42, 2021

Quantum dot clusters as self-assembled antennae with phycocyanine and phycobilisomes as energy acceptors

Abstract

In this study, we investigated an experimental and Monte-Carlo computational characterization of self-assembled antennae built using CdTe colloidal quantum dots (QDs). These clusters provide efficient excitation of phycocyanine (PC) or phycobilisomes (PBSs). PBSs are light-harvesting complexes (LHCs) of cyanobacteria, made of several PC units, organized in disks and rods. Each PC contains three separate cofactors. Therefore, we analyzed variations in multi-donor and multi-acceptor systems. The self-assembled QD clusters were formed mostly by electrostatic interactions, possibly due to the introduction of a positive charge on an originally negatively charged nanoparticle surface. Our results suggest that PC may accept energy from multiple nanoparticles localized at a distance significantly longer than the Förster radius. The excitation transfers between particular nanoparticles with possible delocalization. The maximal energy transfer efficiency was obtained for the PC/PBS : QD ratio from 1 to 20 depending on the QD size. This cannot be fully explained using computational simulations; hence, we discussed the hypothesis and explained the observations. Our self-assembled systems may be considered for possible applications in artificial light-harvesting systems because absorption spectra of QDs are different from the absorption characteristics of PC/PBS. In addition, huge clusters of QDs may effectively increase the optical cross-section of so-created nanohybrids.

Graphical abstract: Quantum dot clusters as self-assembled antennae with phycocyanine and phycobilisomes as energy acceptors

Supplementary files

Article information

Article type
Paper
Submitted
22 Jul 2021
Accepted
13 Oct 2021
First published
13 Oct 2021

Phys. Chem. Chem. Phys., 2021,23, 24505-24517

Quantum dot clusters as self-assembled antennae with phycocyanine and phycobilisomes as energy acceptors

J. Grzyb, K. Walczewska-Szewc, J. Sławski and M. Trojnar, Phys. Chem. Chem. Phys., 2021, 23, 24505 DOI: 10.1039/D1CP03347F

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