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Journal of Nanoparticle Research

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01-01-2015 | Research Paper

Physicochemical properties of hybrid graphene–lead sulfide quantum dots prepared by supercritical ethanol

Authors: Mohammad Mahdi Tavakoli, Ahmad Tayyebi, Abdolreza Simchi, Hossein Aashuri, Mohmmad Outokesh, Zhiyong Fan

Published in: Journal of Nanoparticle Research | Issue 1/2015

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Abstract

Recently, hybrid graphene–quantum dot systems have attracted increasing attention for the next-generation optoelectronic devices such as ultrafast photo-detectors and solar energy harvesting. In this paper, a novel, one-step, reproducible, and solution-processed method is introduced to prepare hybrid graphene–PbS colloids by employing supercritical ethanol. In the hybrid nanocomposite, PbS quantum dots (~3 nm) are decorated on the reduced graphene oxide (rGO) nanosheets (~1 nm thickness and less than 1 micron lengths). By employing X-ray photoelectron and Raman and infrared spectroscopy techniques, it is shown that the rGO nanosheets are bonded to PbS nanocrystals through carboxylic bonds. Passivation of {111} planes of PbS quantum dots with rGO nanosheets is demonstrated by employing density function theory. Quenching of the photoluminescence emission of PbS nanocrystals through coupling with graphene sheets is also shown. In order to illustrate that the developed preparation method does not impair the quantum efficiency of the PbS nanocrystals, the photovoltaic efficiency of solar cell device is reported and compared with oleic acid-capped PbS colloidal quantum dot solar cells. By employing the “Hall effect” measurement, it is shown that the carrier mobility is significantly increased (by two orders of magnitudes) in the presence of graphene nanosheets.

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Title: Physicochemical properties of hybrid graphene–lead sulfide quantum dots prepared by supercritical ethanol
Authors: Mohammad Mahdi Tavakoli
Ahmad Tayyebi
Abdolreza Simchi
Hossein Aashuri
Mohmmad Outokesh
Zhiyong Fan
Publication date: 01-01-2015
Publisher: Springer Netherlands
Published in: Journal of Nanoparticle Research / Issue 1/2015
Print ISSN: 1388-0764
Electronic ISSN: 1572-896X
DOI: https://doi.org/10.1007/s11051-014-2854-8

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