Enhanced photocatalytic activity of ZnO nanorods by surface treatment with HAuCl4 : synergic effects through an electron scavenging, plasmon resonance and surface hydroxylation
author
Dedova, Tatjana
Oja Acik, Ilona
Chen, Zengjun
Katerski, Atanas
Balmassov, Kirill
Gromõko, Inga
Nagyne-Kovacs, T.
Szilagyi, I.M.
Krunks, Malle
statement of authorship
T. Dedova, I. Oja Acik, Z. Chen, A. Katerski, K. Balmassov, I. Gromyko, T. Nagyné-Kovács, I.M. Szilágyi, M. Krunks
source
Materials chemistry and physics
publisher
Elsevier Ltd
journal volume number month
vol. 245
year of publication
2020
pages
art. 122767
url
https://doi.org/10.1016/j.matchemphys.2020.122767
subject term
tsinkoksiid
nanovardad
päikeseelemendid
õhukesed katted
fotokatalüüs
keyword
hydrothermal growth
ZnO nanorods
plasmonics
hydroxylation
photocatalytic activity
ISSN
0254-0584
notes
Bibliogr.: 45 ref
scientific publication
teaduspublikatsioon
classifier
1.1
Scopus
Journal metrics at Scopus
Article at Scopus
WOS
Journal metrics at WOS
Article at WOS
category (general)
Physics and astronomy
en
Füüsika ja astronoomia
et
Materials science
en
Materjaliteadus
et
category (sub)
Physics and astronomy. Condensed matter physics
en
Füüsika ja astronoomia. Kondenseeritud aine füüsika
et
Materials science. General materials science
en
Materjaliteadus. Üldine materjaliteadus
et
kvartiil
Q2
TTÜ department
materjali- ja keskkonnatehnoloogia instituut
language
inglise
Uurimisrühm
Laboratory of chemical thin film technologies