2012
DOI: 10.1021/nn305031k
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Light-Induced Charged and Trap States in Colloidal Nanocrystals Detected by Variable Pulse Rate Photoluminescence Spectroscopy

Abstract: Intensity instabilities are a common trademark of the photoluminescence of nanoemitters. This general behavior is commonly attributed to random fluctuations of free charges and activation of charge traps reducing the emission yield intermittently. However, the actual physical origin of this phenomenon is actively debated. Here we devise an experiment, variable pulse rate photoluminescence, to control the accumulation of charges and the activation of charge traps. The dynamics of these states is studied, with p… Show more

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Cited by 44 publications
(59 citation statements)
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“…The low-excitation source was a Ti:sapphire oscillator (Spectra Physics Tsunami) delivering 100-fs-long pulses to a home-made pulse picker to reduce the pulse repetition rate from 80 MHz to 800 Hz (ref. 56). The available energy on the sample surface was in the range 0.1-100 pJ per pulse.…”
Section: Methodsmentioning
confidence: 99%
“…The low-excitation source was a Ti:sapphire oscillator (Spectra Physics Tsunami) delivering 100-fs-long pulses to a home-made pulse picker to reduce the pulse repetition rate from 80 MHz to 800 Hz (ref. 56). The available energy on the sample surface was in the range 0.1-100 pJ per pulse.…”
Section: Methodsmentioning
confidence: 99%
“…Trapping and movements of charges at the shell-ligands interface result in fluctuations of the local electric field that induce random spectral jumps and broaden the emission linewidth. The dynamics of the SD has received great interest [11][12][13][14] since it limits the use of colloidal NC in applications such as two-photon interference * jean-pierre.hermier@uvsq.fr in the domain of quantum computing for which time coherence is a key point. SD can be studied using either conventional spectroscopic technique, which is based on the acquisition of consecutive photoluminescence (PL) spectra [13], or by more advanced methods.…”
Section: Introductionmentioning
confidence: 99%
“…[66,129] Engineering of surface traps to control recombination rate is critical for the design of sensitive and fast photoconductive detectors, while suppres- properties. [3,124,129,[132][133][134][135][136][137] Apart from an early report in Bi 2 S 3 nanocrystals with band gap at 1.7 eV, [138] to the best of our knowledge, no systematic investigation of the excited-state dynamics in bismuth sulfide has been reported until now. shows the presence of rod shaped particles with average sizes of 29 nm (14% polydispersity) and of 14 nm (19% polydispersity).…”
Section: Resultsmentioning
confidence: 99%