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KOCSIS, K. NIEDERMAIER, M. KAŠPÁREK, V. BERNARDI, J. REDHAMMER, G. BOCKSTEDTE, M. BERGER, T. DIWALD, O.
Original Title
From anhydrous Zinc Oxide Nanoparticle Powders to Aqueous Colloids: Impact of Water Condensation and Organic Salt Adsorption on Free Exciton Emission
Type
journal article in Web of Science
Language
English
Original Abstract
Variations in the composition and structure of ZnO nanoparticle interfaces have a key influence on the materials´ optoelectronic properties and are responsible for high number of discrepant results reported for ZnO-based nanomaterials. Here, we conduct a systematic study of the room-temperature photoluminescence of anhydrous ZnO nanocrystals, as synthetized in the gas phase and processed in water-free atmosphere, and of their colloidal derivatives in aqueous dispersions with varying amounts of organic salt admixtures. A free exciton band at photo-energy 3.3 eV and induces a small but significant release in lattice strain as detected by X-ray diffraction. Most importantly, admixture of acetate or citrate ions to the aqueous colloidal dispersions not only allows for the control of the zeta-potential but also affects the intensity of the free exciton emission in a correlated manner. The buildup of negative charge at solid-luquid interface, as produced by citrate adsorption, increase the free exciton emission. This effect is attributed to the suppression of electron trapping in the near-surface region, which counteracts nonradiative exciton recombination. Using well-defined ZnO nanoparticles as model systems for interface chemistry studies, our finding higlight water-induced key effects that depend on the composition of the aqueous solution shell around the semiconducting metal oxide nanoparticles.
Keywords
nanoparticle powders; water adsorption; strain release; free exciton emission; interface engineering
Authors
KOCSIS, K.; NIEDERMAIER, M.; KAŠPÁREK, V.; BERNARDI, J.; REDHAMMER, G.; BOCKSTEDTE, M.; BERGER, T.; DIWALD, O.
Released
3. 6. 2019
Publisher
American Chemical Society
Location
1155 Sixteenth Street N. W., Washington, DC 20036
ISBN
0743-7463
Periodical
Langmuir
Year of study
35
Number
26
State
United States of America
Pages from
8741
Pages to
8747
Pages count
7
URL
https://pubs.acs.org/doi/abs/10.1021/acs.langmuir.9b00656
BibTex
@article{BUT157410, author="Krisztina {Kocsis} and Matthias {Niedermaier} and Vít {Kašpárek} and Johannes {Bernardi} and Günther {Redhammer} and Michel {Bockstedte} and Thomas {Berger} and Oliver {Diwald}", title="From anhydrous Zinc Oxide Nanoparticle Powders to Aqueous Colloids: Impact of Water Condensation and Organic Salt Adsorption on Free Exciton Emission", journal="Langmuir", year="2019", volume="35", number="26", pages="8741--8747", doi="10.1021/acs.langmuir.9b00656", issn="0743-7463", url="https://pubs.acs.org/doi/abs/10.1021/acs.langmuir.9b00656" }