InP/ZnS Nanocrystals: Coupling NMR and XPS for Fine Surface and Interface Description

Virieux, Héloïse; Troëdec, Marianne Le; Cros-Gagneux, Arnaud; Ojo, Wilfried-Solo; Delpech, Fabien; Nayral, Céline; Martínez, Hervé; Chaudret, Bruno

doi:10.1021/ja307124m

Cited by 228 publications

(334 citation statements)

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“…Previous literature has also reported oxidized P levels of InP cores close to 10% by XPS and NMR but has shown an increase to approximately 35% after shelling with ZnS. 64 In Fig. 10 (bottom), InP magic-sized clusters were prepared with a phosphonate ligand shell, showing the mixed environment of P 3 from the inorganic core and P 5+ from the organic ligands.…”

Section: Resultsmentioning

confidence: 76%

A compact dispersive refocusing Rowland circle X-ray emission spectrometer for laboratory, synchrotron, and XFEL applications

Holden

Hoidn

Ditter

et al. 2017

Review of Scientific Instruments

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Articles you may be interested inCCD camera as feasible large-area-size x-ray detector for x-ray fluorescence spectroscopy and imaging Review of Scientific Instruments 88, 063703 (2017) (Received 25 April 2017; accepted 6 July 2017; published online 27 July 2017) X-ray emission spectroscopy is emerging as an important complement to x-ray absorption fine structure spectroscopy, providing a characterization of the occupied electronic density of states local to the species of interest. Here, we present details of the design and performance of a compact x-ray emission spectrometer that uses a dispersive refocusing Rowland (DRR) circle geometry to achieve excellent performance for the 2-2.5 keV range, i.e., especially for the K-edge emission from sulfur and phosphorous. The DRR approach allows high energy resolution even for unfocused x-ray sources. This property enables high count rates in laboratory studies, approaching those of insertion-device beamlines at third-generation synchrotrons, despite use of only a low-powered, conventional x-ray tube. The spectrometer, whose overall scale is set by use of a 10-cm diameter Rowland circle and a new small-pixel complementary metal-oxide-semiconductor x-ray camera, is easily portable to synchrotron or x-ray free electron laser beamlines. Photometrics from measurements at the Advanced Light Source show excellent overall instrumental efficiency. In addition, the compact size of this instrument lends itself to future multiplexing to gain large factors in net collection efficiency or its implementationincontrolledgasgloveboxeseitherinthelaborinanendstation.

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Section: Resultsmentioning

confidence: 76%

A compact dispersive refocusing Rowland circle X-ray emission spectrometer for laboratory, synchrotron, and XFEL applications

Holden

Hoidn

Ditter

et al. 2017

Review of Scientific Instruments

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“…For instance, we have previously shown for InP QDs that PO x (with x = 3 and predominantly 4), In 2 O 3 , and InO y (OH) 3–2 y ( y = 0, 1) species exist at the surface. 8 The formation of these species is the direct consequence of the high oxophilicity of these QDs which react with water existing as a residual impurity in reactants or solvents or coming from side-reactions of ligands at high temperature. Given the extraordinary complexity of these phosphide QDs surface, the full characterization of the surface ligand is not an easy task.…”

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confidence: 99%

“…It has been shown, 8,15 that the analysis of surface QDs using the basic cross-polarization (CP) sequence MAS NMR is of high interest because it brings complementary information to those given by solution NMR: the low motion of the surface ligand can be advantageously used through the CP experiment to enhance the signals which are typically too broad and too weak to be not observable in solution. The CP experiment where magnetization is transferred from a proton nucleus to a spin nucleus of lower sensitivity ( e.g.…”

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Identifying short surface ligands on metal phosphide quantum dots

Baquero

Ojo

Coppel

et al. 2016

Phys. Chem. Chem. Phys.

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“…Hg containing samples used the Hg4d area between 350 and 385 eV rather than the more conventional Hg4f or Hg5d due to masking elements, particularly Si2p masking of Hg4f, as all QD samples for analysis were mounted on glass prior to analysis (figure 3). [39][40][41][42] [ Figure 3]…”

Section: Hg Doping (2a 2b)mentioning

confidence: 99%

Doping Group IIB Metal Ions into Quantum Dot Shells via the One‐Pot Decomposition of Metal‐Dithiocarbamates

Bear

Hollingsworth

Roffey

et al. 2015

Advanced Optical Materials

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(2015). Doping group IIB metal ions into quantum dot shells via the one-pot decomposition of metaldithiocarbamates. Advanced Optical Materials. DOI: 10.1002/adom.201400570 Citing this paper Please note that where the full-text provided on King's Research Portal is the Author Accepted Manuscript or Post-Print version this may differ from the final Published version. If citing, it is advised that you check and use the publisher's definitive version for pagination, volume/issue, and date of publication details. And where the final published version is provided on the Research Portal, if citing you are again advised to check the publisher's website for any subsequent corrections. General rightsCopyright and moral rights for the publications made accessible in the Research Portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognize and abide by the legal requirements associated with these rights.•Users may download and print one copy of any publication from the Research Portal for the purpose of private study or research.•You may not further distribute the material or use it for any profit-making activity or commercial gain •You may freely distribute the URL identifying the publication in the Research Portal Take down policy If you believe that this document breaches copyright please contact librarypure@kcl.ac.uk providing details, and we will remove access to the work immediately and investigate your claim. Quantum dots were characterised and interrogated using TEM, HRTEM, electron diffraction, ToF-SIMS, XPS, EDS spectroscopy, photoluminescence emission and lifetime spectroscopy and UV/vis spectroscopy.

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InP/ZnS Nanocrystals: Coupling NMR and XPS for Fine Surface and Interface Description

Cited by 228 publications

References 36 publications

A compact dispersive refocusing Rowland circle X-ray emission spectrometer for laboratory, synchrotron, and XFEL applications

A compact dispersive refocusing Rowland circle X-ray emission spectrometer for laboratory, synchrotron, and XFEL applications

Identifying short surface ligands on metal phosphide quantum dots

Doping Group IIB Metal Ions into Quantum Dot Shells via the One‐Pot Decomposition of Metal‐Dithiocarbamates

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