2020
DOI: 10.1021/acs.jpcc.0c05622
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Influence of the Processing Environment on the Surface Composition and Electronic Structure of Size-Quantized CdSe Quantum Dots

Abstract: We show here how differences in surface composition for monolayer (ML)-tethered pyridine (Py)-treated CdSe quantum dots (QDs) affect band edge energetics, as a function of QD diameter. We compare UV−vis spectroscopy of QD solutions and X-ray (XPS) and ultraviolet (UPS) photoelectron spectroscopy of QDs tethered to 1,6hexanedithiol-modified Au surfaces. Differences in QD surface composition are brought about by differences in solvent composition during displacement of the native, X-type octadecylphosphonate (OD… Show more

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Cited by 12 publications
(58 citation statements)
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“…41 This approach has been shown to be effective in determining low concentrations of midgap states in metal oxides, perovskites, and semiconductor nanocrystalline thin films. 17,18,69 The measurement science approaches we show here can be extrapolated to a wide range of both n-type and p-type oxide films proposed as interlayers in thin film solar cells and other optoelectronic devices. 17,18,35 We posit that an increased understanding of the defects in these oxide films as they pertain to their use as electrical contacts in printed solar cell technologies will also provide insights into the use of these oxides as catalytic surfaces in both photoelectrochemical water and air-purification technologies where the photoactivated oxide layers need to be optimized to enhance both adsorption of key contaminants and biomolecules and their degradation into environmentally benign products.…”
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confidence: 86%
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“…41 This approach has been shown to be effective in determining low concentrations of midgap states in metal oxides, perovskites, and semiconductor nanocrystalline thin films. 17,18,69 The measurement science approaches we show here can be extrapolated to a wide range of both n-type and p-type oxide films proposed as interlayers in thin film solar cells and other optoelectronic devices. 17,18,35 We posit that an increased understanding of the defects in these oxide films as they pertain to their use as electrical contacts in printed solar cell technologies will also provide insights into the use of these oxides as catalytic surfaces in both photoelectrochemical water and air-purification technologies where the photoactivated oxide layers need to be optimized to enhance both adsorption of key contaminants and biomolecules and their degradation into environmentally benign products.…”
mentioning
confidence: 86%
“…Relative atomic concentrations are quantified from background-corrected and deconvoluted CL spectra, which are corrected for the orbital cross sections and KE-dependent analyzer transfer function. 69 UPS VB spectra and the low kinetic energy secondary electron cutoff (SECO) are measured with a He discharge lamp operating at 20 mA. The UHP He is passed through a liquid N 2 trap filled with molecular sieves.…”
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confidence: 99%
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“…As shown in Figure S1 and discussed in Section 2.1, many publications did not report details in the synthesis, which significantly decreases the size of the dataset despite the large number of published reports of InP QD synthesis in the past decades. Other synthetic parameters that also affect the synthetic outcomes but are often not mentioned include injection rate 55 , solvents and precursors purity 56,57 , and QD purification status and methods [58][59][60] . Moreover, heterogeneity of experimental condition in different labs also impacts the synthetic outcomes.…”
Section: Limitationsmentioning
confidence: 99%