2018
DOI: 10.1021/acs.jpcc.7b11327
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Highly Photoluminescent InP Based Core Alloy Shell QDs from Air-Stable Precursors: Excitation Wavelength Dependent Photoluminescence Quantum Yield, Photoluminescence Decay Dynamics, and Single Particle Blinking Dynamics

Abstract: InP based quantum dots (QDs) are coming in a big way as an alternative to toxic Cd, or Pb based QDs. Unlike many literature reports in this work, green-yellow-orange-red emitting highly photoluminescent (PLQY as high as 65%) and photostable InP/ZnSeS core/alloy shell quantum dots (CAS QDs) have been synthesized using a less toxic, air-stable aminophosphine precursor (P­(DMA)3). Unlike literature predictions in this paper, we show that green-yellow-orange-red emitting InP based alloyed QDs can be prepared with … Show more

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Cited by 58 publications
(108 citation statements)
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“…The single particle nature of WLE QDC (deposited on a glass cover slip) was demonstrated based on the blinking activity, that is, time‐dependent alteration between on state (emitting state) and off state (dark state) using CLSM under superresolution. This is a primary signature, of single luminescent nanocrystals, which distinguishes them from multiple nanocrystals . Figure E shows the superresolution representative image of the white colored particles as obtained from Figure D (iii).…”
Section: Resultsmentioning
confidence: 96%
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“…The single particle nature of WLE QDC (deposited on a glass cover slip) was demonstrated based on the blinking activity, that is, time‐dependent alteration between on state (emitting state) and off state (dark state) using CLSM under superresolution. This is a primary signature, of single luminescent nanocrystals, which distinguishes them from multiple nanocrystals . Figure E shows the superresolution representative image of the white colored particles as obtained from Figure D (iii).…”
Section: Resultsmentioning
confidence: 96%
“…In our case, the probability distributions of the events (on and off) could be fitted well by a truncated power law through a log–log plot extracted from the obtained data points for 40 single particles (Figure H,I), the details of which are described in the Experimental Section. It is to be mentioned here that the exponent of the power‐law distribution (known as α on and α off ) of the on and off events is an important parameter with regard to the luminescence behavior of a blinking single nanocrystal . Hence, any chemical reaction or physical interaction that alters the emission characteristics of a single nanocrystal may lead to change in the exponents (α on and α off ) and their ratio (α on /α off ) in the blinking statistics .…”
Section: Resultsmentioning
confidence: 99%
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