A molecular approach to Cu doped ZnO nanorods with tunable dopant content

A novel molecular approach to the synthesis of polycrystalline Cu-doped ZnO rod-like nanostructures with variable concentrations of introduced copper ions in ZnO host matrix is presented. Spectroscopic (PLS, variable temperature XRD, XPS, ELNES, HERFD) and microscopic (HRTEM) analysis methods reveal...

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Published in:Dalton transactions : an international journal of inorganic chemistry 2011-04, Vol.40 (16), p.4307-4314
Main Authors: Pashchanka, Mikhail, Hoffmann, Rudolf C, Gurlo, Aleksander, Swarbrick, Janine C, Khanderi, Jayaprakash, Engstler, Jörg, Issanin, Alexander, Schneider, Jörg J
Format: Article
Language:English
Subjects:
Copper
COPPER IONS
Dopants
Doping
Metal oxides
MICROSTRUCTURES
Molecular structure
Nanorods
Nanostructure
OXIDES
ROD
ZINC OXIDE
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cited_by cdi_FETCH-LOGICAL-c319t-ea4e687d896b955c718dba4fba7a03c6d6958eb9fd3fc63a4047c40011e39a7a3
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container_issue 16
container_start_page 4307
container_title Dalton transactions : an international journal of inorganic chemistry
container_volume 40
creator Pashchanka, Mikhail
Hoffmann, Rudolf C
Gurlo, Aleksander
Swarbrick, Janine C
Khanderi, Jayaprakash
Engstler, Jörg
Issanin, Alexander
Schneider, Jörg J
description A novel molecular approach to the synthesis of polycrystalline Cu-doped ZnO rod-like nanostructures with variable concentrations of introduced copper ions in ZnO host matrix is presented. Spectroscopic (PLS, variable temperature XRD, XPS, ELNES, HERFD) and microscopic (HRTEM) analysis methods reveal the +II oxidation state of the lattice incorporated Cu ions. Photoluminescence spectra show a systematic narrowing (tuning) of the band gap depending on the amount of Cu(II) doping. The advantage of the template assembly of doped ZnO nanorods is that it offers general access to doped oxide structures under moderate thermal conditions. The doping content of the host structure can be individually tuned by the stoichiometric ratio of the molecular precursor complex of the host metal oxide and the molecular precursor complex of the dopant, Di-aquo-bis[2-(methoxyimino)-propanoato]zinc(II) 1 and -copper(II) 2. Moreover, these keto-dioximato complexes are accessible for a number of transition metal and lanthanide elements, thus allowing this synthetic approach to be expanded into a variety of doped 1D metal oxide structures.
doi_str_mv 10.1039/c0dt01567a
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source Royal Society of Chemistry
subjects Copper
COPPER IONS
Dopants
Doping
Metal oxides
MICROSTRUCTURES
Molecular structure
Nanorods
Nanostructure
OXIDES
ROD
ZINC OXIDE
title A molecular approach to Cu doped ZnO nanorods with tunable dopant content
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