Article
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Tier 2
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Original research — experimental, observational, or case-control study. Direct primary evidence.
Food & Water
Remediation
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The Global Advanced Materials & Surfaces - GAMS International Conference 2022
2022
Score: 25
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Tea Kaurin,
Tihana Dekanić,
Tanja Pušić,
Tihana Dekanić,
Tanja Pušić,
Tanja Pušić,
Ana Šaravanja,
Tanja Pušić,
Martynas Lelis,
Tea Kaurin,
Mirjana Čurlin,
Tanja Pušić,
Mirjana Čurlin,
Tanja Pušić,
Mirjana Čurlin,
Simona Tučkutė,
Mirjana Čurlin,
Mirjana Čurlin,
Mirjana Čurlin,
Mirjana Čurlin,
Mirjana Čurlin,
Ana Šaravanja,
Tanja Pušić,
Tanja Pušić,
Ana Šaravanja,
Emilija Demikyte,
Ana Šaravanja,
Mirjana Čurlin,
Mirjana Čurlin,
Mirjana Čurlin,
Tanja Pušić,
Ana Šaravanja,
Tihana Dekanić,
Tanja Pušić,
Ana Šaravanja,
Mirjana Čurlin,
Deimante Galalyte,
R Thompson
Tanja Pušić,
Deimante Galalyte,
Mirjana Čurlin,
Mirjana Čurlin,
Tanja Pušić,
Tihana Dekanić,
Tea Kaurin,
Rimantas Daugelavičius,
Tea Kaurin,
Sandra Sakalauskaitė,
Katia Grgić,
Katia Grgić,
Veronika Lovreškov,
Veronika Lovreškov,
R Thompson
Martinia Ira Glogar,
R Thompson
R Thompson
Tea Kaurin,
Tanja Pušić,
N Kerman,
N Kerman,
Ana Šaravanja,
K Lee,
Tihana Dekanić,
S Zhao,
Tea Kaurin,
R Thompson
Katia Grgić,
Katia Grgić,
D Chen,
Mirjana Čurlin,
Mirjana Čurlin,
Ivan Stojanović,
Lovro Turkalj,
Lovro Turkalj,
Ivan Cindrić,
Ivan Cindrić,
Ivan Juraga,
Ivan Juraga,
Marin Kurtela,
Vinko Šimunović,
Vinko Šimunović,
I Napper,
R Thompson
Vesna Alar,
J Song,
Hrvoje Franjić,
Hrvoje Franjić,
D Chen,
J Song,
R Thompson
I Dallabona,
W Hui,
K Lee,
A Sreedhar,
N Yang,
N Daneshvar,
M Feygenson,
R Thompson
D Baudouin,
M Urbonavicius,
R Thompson
R Thompson
S Varnagiris,
R Thompson
R Thompson
J.-J Lee,
A Horrocks,
R Thompson
S Bourbigot,
R Horrocks,
S Zhao,
S Zhao,
D Hong-Li,
N Sonee,
R Thompson
C Arora,
M Parmar,
R Thompson
R Thompson
B Shan,
W Epolito,
D Chen,
N Merlin,
J Song,
K Balasubramanian,
S Kolbe,
D Chen,
I orak,
I Napper,
R Thompson
M Sillanp,
J Song,
R Thompson
P Sainio,
R Thompson
M Sillanp,
E Richaud,
D Chen,
J Verdu,
L Hunter,
S Zhao,
J Song,
I ubri,
J White,
R Thompson
T Luxbacher,
T Pui,
R Thompson
H Bukek,
S Flinec Grgac,
M urlin,
R Thompson
T Hang,
R Thompson
T Truc,
T Nam,
R Thompson
R Thompson
V Oanh,
R Thompson
R Thompson
J Jorcin,
R Thompson
N Pbre,
I Stojanovi,
R Thompson
I Cindri,
R Thompson
L Jankovi,
S Zhao,
J Song,
V imunovi,
H Franji,
R Thompson
I Napper,
R Thompson
K Lee,
R Thompson
R Thompson
R Thompson
Summary
This conference proceedings entry describes the development of bi-layered ZnO-Ni magnetic photocatalyst powder for use in repetitive water treatment cycles. Particles fabricated via magnetron sputtering onto NaCl templates produced open-shell structures with ZnO on one face and metallic Ni on the other, enabling magnetic post-treatment recovery. Under UV irradiation, the powder reduced Salmonella Typhimurium viability by over 98% within one hour and retained activity across 10 reuse cycles.
The goal of the current study was to produce magnetic photocatalyst powder consisting of bi-layered ZnO-Ni particles for easy manipulation and collection during the repetitive photocatalytic water treatments.First, magnetron sputtering was used to cover NaCl grains by Ni underlayer and ZnO overlayer.Then the salt was washed off with distilled water.SEM, EDS and XRD analysis confirmed that obtained particles can be characterized as bi-layered open shells with nanocrystalline ZnO phase on one side and metallic Ni on the other side.In laboratory tests larger part of initial bi-layered powder were successfully recollected by magnets even after 10 consecutive usage cycles.Measurements of photocatalytic performance demonstrated relatively high activity and stability of bi-layered ZnO-Ni powder.Photocatalytic treatment of S. Typhimurium bacteria with ZnO-Ni powder and UV light in 1 hour reduced S. Typhimurium viability by more than 98 %, but similar treatment using visible light was not efficient.