Interfacing Quantum Dots and Graphitic Surfaces with Chlorine Atomic Ligands

Iacono, Fabiola; Palencia, Cristina; de la Cueva, Leonor; Meyns, Michaela; Terracciano, Luigi; Vollmer, Antje; José de la Mata, María; Klinke, Christian; Gallego, José M.; Juarez, Beatriz H.; Otero, Roberto

doi:10.1021/nn305868n.s001

Interfacing Quantum Dots and Graphitic Surfaces with Chlorine Atomic Ligands

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posted on 2013-03-26, 00:00 authored by Fabiola Iacono, Cristina Palencia, Leonor de la Cueva, Michaela Meyns, Luigi Terracciano, Antje Vollmer, María José de la Mata, Christian Klinke, José M. Gallego, Beatriz H. Juarez, Roberto Otero

The performance of devices based on semiconductor nanocrystals (NCs) improves both with stronger interface interactions among NCs and between NCs and solid electrode surfaces. The combination of X-ray photoelectron spectroscopy (XPS) and solid ³¹P CP/MAS NMR (cross-polarization/magic angle spinning nuclear magnetic resonance) shows that the selective substitution of long organic chains by chlorine atomic ligands during the colloidal synthesis by the hot injection method promotes the adsorption of CdSe NCs to carbon sp² surfaces, leading to the formation of well-ordered NC monolayers on graphitic materials.

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graphitic materials electrode surfaces CdSe NCs injection method interface interactions Graphitic Surfaces Interfacing Quantum Dots semiconductor nanocrystals XPS CP NMR Chlorine Atomic LigandsThe performance carbon sp 2 surfaces

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Interfacing Quantum Dots and Graphitic Surfaces with Chlorine Atomic Ligands

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