Risultati scientifici

Plasmon-assisted suppression of surface trap states and enhanced band-edge emission in a bare CdTe quantum dot

Anno: 2019

Autori: Flatae A. M., Tantussi F., Messina G. C., De Angelis F., Agio M.

Affiliazione autori: Laboratory of Nano-Optics and Cμ, University of Siegen, 57072 Siegen, Germany; Istituto Italiano di Tecnologia, 16163 Genova, Italy; National Institute of Optics (INO-CNR), 50125 Florence, Italy

Abstract: Colloidal quantum dots have emerged as a versatile photoluminescent and optoelectronic material. Limitations like fluorescence intermittency, nonradiative Auger recombination, and surface traps are commonly addressed by growing a wide-band-gap shell. However, the shell isolates the excitonic wave function and reduces its interaction with the external environment necessary for different applications. Furthermore, their long emission lifetime hinders their use in high-speed optoelectronics. Here, we demonstrate a high degree of control on the photophysics of a bare core CdTe quantum dot solely by plasmon coupling, showing that more than 99% of the surface defect-state emission from a trap-rich quantum dot can be quenched. Moreover, the band-edge state excitonic and biexcitonic emission rates are Purcell enhanced by 1460- and 613-fold, respectively. Our findings show how plasmon coupling on bare quantum dots could make chemical approaches developed for improving their optical properties unnecessary, with implications for nanoscale lasers, light-emitting devices, solar cells, and ultrafast single- photon sources.


Volume: 10 (11)      Da Pagina: 2874  A: 2878

Parole chiavi: colloidal quantum dots, nanoantennas, photophysics
DOI: 10.1021/acs.jpclett.9b01083

Citazioni: 11
dati da “WEB OF SCIENCE” (of Thomson Reuters) aggiornati al: 2022-01-23
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