Litcius/Paper detail

Slow Auger Recombination in Ag<sub>2</sub>Se Colloidal Quantum Dots

Chen Liao, Luping Tang, Yunzhe Jia, Shaoling Sun, Haoran Yang, Jie Xu, Zixuan Gu

2023Nano Letters10 citationsDOI

Abstract

Efficient Auger recombination (AR) presents a significant challenge for the advancement of colloidal quantum dot (QD)-based devices involving multiexcitons. Here, the AR dynamics of near-infrared Ag 2 Se QDs were studied through transient absorption experiments. As the QD radius increases from 0.9 to 2.5 nm, the biexciton lifetime (τ 2 ) of Ag 2 Se QDs increases from 35 to 736 ps, which is approximately 10 times longer than that of comparable-sized CdSe and PbSe QDs. A qualitative analysis based on observables indicates that the slow Auger rate is primarily attributed to the low density of the final states. The biexciton lifetime and triexciton lifetime (τ 3 ) of Ag 2 Se QDs follow R 3 and R 2.6 dependence, respectively. Moreover, the ratio of τ 2 /τ 3 is ∼2.3–3.2, which is markedly lower than the value expected from statistical scaling (4.5). These findings suggest that environmentally friendly Ag 2 Se QDs can serve as excellent candidates for low-threshold lasers and third-generation photovoltaics utilizing carrier multiplication.

Topics & Concepts

Auger effectQuantum dotBiexcitonMultiple exciton generationAugerMaterials scienceIcosahedral symmetryRADIUSOptoelectronicsPhotovoltaicsExcitonNanotechnologyAtomic physicsMolecular physicsPhysicsChemistryCondensed matter physicsPhotovoltaic systemCrystallographyBiologyComputer securityEcologyComputer scienceQuantum Dots Synthesis And PropertiesChalcogenide Semiconductor Thin FilmsSemiconductor Quantum Structures and Devices