Weikun Yao
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Explore the profile of Weikun Yao including associated specialties, affiliations and a list of published articles.
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12
Citations
51
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Recent Articles
1.
Wang H, Yao W, Yuan Y, Shi S, Liu T, Wang N
Adv Sci (Weinh)
. 2024 Feb;
11(17):e2306534.
PMID: 38348596
Uranium extraction from seawater has attracted worldwide attention due to the massive reserves of uranium. Due to the straightforward synthesis and strong affinity toward uranyl ions (UO ), the amidoxime...
2.
Gao L, Li Y, Yao W, Yu G, Wang H, Wang Y
Water Res
. 2023 Sep;
245:120600.
PMID: 37713791
This study investigated the formation of dichloroacetamide (DCAM) and dichloroacetic acid (DCAA) from the abatement of three phenicol antibiotics (PABs, chloramphenicol, thiamphenicol, and florfenicol) during ozonation and post-chlor(am)ination. Results show...
3.
Wang H, Xu T, Zheng B, Cao M, Gao F, Zhou G, et al.
J Hazard Mater
. 2022 Mar;
433:128789.
PMID: 35358815
Owing to the abundant uranium reserves in the oceans, the collection of uranium from seawater has aroused the widespread interest. Compared to the uranium extraction from ore, uranium collection from...
4.
Ur Rehman S, Wang H, Yao W, Deantes-Espinosa V, Wang B, Huang J, et al.
Chemosphere
. 2019 Jul;
236:124374.
PMID: 31344619
The degradation of irgarol, a frequently detected algaecide in the aquatic environment, by ozonation was investigated in this study. The second-order rate constants for the reaction of irgarol with ozone...
5.
Yao W, Fu J, Yang H, Yu G, Wang Y
Water Res
. 2019 Apr;
157:209-217.
PMID: 30954696
The formation of chlorinated by-products is a major concern associated with electrochemical water treatment processes. This study investigated the formation of chlorinated by-products during surface water treatment by a newly...
6.
Yao W, Ur Rehman S, Wang H, Yang H, Yu G, Wang Y
Water Res
. 2018 Mar;
138:106-117.
PMID: 29574198
The electro-peroxone (E-peroxone) process is an emerging ozone-based advanced oxidation process (AOP) that has shown large potential for micropollutant abatement in water treatment. To evaluate its performance under more realistic...
7.
Mao Y, Guo D, Yao W, Wang X, Yang H, Xie Y, et al.
Water Res
. 2017 Dec;
130:322-332.
PMID: 29247948
The electro-peroxone (E-peroxone) process is an emerging ozone-based electrochemical advanced oxidation process that combines conventional ozonation with in-situ cathodic hydrogen peroxide (HO) production for oxidative water treatment. In this study,...
8.
Wang H, Zhan J, Yao W, Wang B, Deng S, Huang J, et al.
Water Res
. 2017 Dec;
130:127-138.
PMID: 29216480
Pharmaceutical abatement in a groundwater (GW), surface water (SW), and secondary effluent (SE) by conventional ozonation, the conventional peroxone (O/HO), and the electro-peroxone (E-peroxone) processes was compared in batch tests....
9.
Yao W, Qu Q, von Gunten U, Chen C, Yu G, Wang Y
Water Res
. 2016 Nov;
108:373-382.
PMID: 27839831
In this study methylisoborneol (MIB) and geosmin abatement in a surface water by conventional ozonation and the electro-peroxone (E-peroxone) process was compared. Batch tests with addition of ozone (O) stock...
10.
Hou M, Chu Y, Li X, Wang H, Yao W, Yu G, et al.
J Hazard Mater
. 2016 Jan;
319:61-8.
PMID: 26777107
This study compares the degradation of diethyl phthalate (DEP) by the electro-peroxone (E-peroxone) process with three different carbon-based cathodes, namely, carbon-polytetrafluorethylene (carbon-PTFE), carbon felt, and reticulated vitreous carbon (RVC). Results...