Vanishing Quantum Confinement Enables Bright and Thermally Excited Multicarrier Emission from Semiconductor Nanocrystals
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2026-02-03
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Abstract
Recently, nanocrystals in the regime of vanishing quantum confinement─termed bulk nanocrystals (BNCs)─have demonstrated optical gain characteristics. While their high-power lasing performance was demonstrated convincingly, the photophysics at low and intermediate powers─where charge-carrier populations are discrete─remain unexplored. Using single-photon avalanche diode (SPAD) array technology, we resolve the dynamics and energetics of six multicarrier excited states in individual CdSe/CdS core/shell BNCs, containing up to four electrons and two holes. Each state exhibits bimodal emission, indicative of thermal equilibrium between closely spaced electron and hole levels, confirmed via temperature-dependent single-particle measurements. Quantification of radiative and nonradiative decay channels reveals strongly suppressed Auger recombination through both the negative- and positive-trion pathways. We present a model that combines statistical scaling of rate constants with Fermi-Dirac thermal occupations of electron and hole levels, bridging the transitional regime between quantum-confined and bulk nanocrystals, and providing a comprehensive framework for understanding this emerging class of materials.
Keywords
multicarrier excited states, single-particle spectroscopy, suppressed Auger recombination, temperature-dependent spectroscopy, weak quantum confinement, Taverne, General Materials Science, General Engineering, General Physics and Astronomy
Citation
Arens, T, Vonk, S J W, Vlasblom, A W, Samoli, M, Vanmaekelbergh, D, Geiregat, P, Hens, Z & Rabouw, F T 2026, 'Vanishing Quantum Confinement Enables Bright and Thermally Excited Multicarrier Emission from Semiconductor Nanocrystals', ACS Nano, vol. 20, no. 4, pp. 3845-3854. https://doi.org/10.1021/acsnano.5c19908