Chemistry and Chemical Engineering
WEI Huangzhao
Title: Professor
Subject: Chemical engineering
Phone:
Email: whzhdicpwtg@dicp.ac.cn
Website:
Research Interests
My major research direction is to study the stability optimization strategy for wastewater catalytic oxidation materials, using catalytic oxidation and intelligent control methods to solve the difficult problem of industrial wastewater treatment.
Biography
Dalian Institute of Chemical Physics, CAS, Professor, 2022/07 - present
Dalian Institute of Chemical Physics, CAS, Associate Professor, 2016/06 - 2017/04 
Dalian Institute of Chemical Physics, CAS, Assistant Professor, 2013/11 - 2016/06
Dalian Institute of Chemical Physics, CAS, D. E., Chemical engineering, 2008/09 - 2013/09: 
Sichuan Agricultural University, B. E., Environmental Engineering, 2004/09 - 2008/07: 
Honors and Awards
In 2015, I won the first prize of scientific and technological progress award in Yantai City; 
In 2016, I won the second prize of scientific and technological progress award in Shandong Province and the first prize of scientific and technological progress award in Panjin City; 
In 2018, I won the title of Dalian Youth Technology Star; 
In 2019, I was identified as a high-end talent in Dalian.
Publications
1.Han P, Li X, Jin C, Tan X, Sun W, Wang S, Ding F, Li X, Jin H, Sun C, Wei H*, Ma L*. Cation deviated stoichiometry Ca1.1ZrO3 perovskite as an efficient ozonation catalyst for m-cresol wastewater degradation. CHEM ENG J. 2022, 429: 132218.

2.Wang S, Han P, Zhao Y, Sun W, Wang R, Jiang X, Wu C, Sun C*, Wei H*. Oxygen-vacancy-mediated LaFe1-xMnxO3-delta perovskite nanocatalysts for degradation of organic pollutants through enhanced surface ozone adsorption and metal doping effects. NANOSCALE. 2021, 13: 12874-12884. (Outside back cover)

3.Han P, Lv H, Li X, Wang S, Wu Z, Li X, Mu Z, Li X, Sun C, Wei H*, Ma L*. Perovskite CaZrO3 for efficient ozonation treatment of organic pollutants in wastewater. CATAL SCI TECHNOL. 2021. (Outside back cover)

4.Tan X, Jin C, Sun W, Zhao Y, Wei H*, Sun C*. Synergetic electrocatalytic degradation of isophorone by active oxygen species generated in the gas diffusion electrode and PbO2 anode. CHEMOSPHERE. 2021, 275: 130060.

5.Yu L, Wang L, Liu Y, Sun C, Zhao Y, Hou Z, Peng H, Wang S, Wei H*. Pyrolyzed carbon derived from red soil as an efficient catalyst for cephalexin removal. CHEMOSPHERE. 2021, 277: 130339.

6.Zhang C, Sun W, Wei H*, Sun C*. Application of artificial intelligence for predicting reaction results in advanced oxidation processes. Environmental technology & innovation. 2021, 23.

7.Xiangdong Tan, Huanqiao Li, Xianru Li, Wenjing Sun, Chengyu Jin, Lili Chen, Huangzhao Wei*, Chenglin Sun*. A novel isophorone wastewater treatment technology-wet electrocatalytic oxidation and its degradation mechanism study. Journal of Hazardous Materials, 389, 2020.

8.Chengyu Jin, Lei Ma, Wenjing Sun, Peiwei Han, Xiangdong Tan, Huiling Wu, Mengyang Liu, Haibo Jin, Zhongshuai Wu, Huangzhao Wei* & Chenglin Sun*. Single-atom nickel confined nanotube superstructure as support for catalytic wet air oxidation of acetic acid. Communications Chemistry, 2:135, 2019.(Nature系列刊物)

9.Wenjing Sun, Huangzhao Wei, Luyang An, Chengyu Jin, Huiling Wu, Zi-Ang Xiong, Chunying Pu, Chenglin Sun*. Oxygen vacancy mediated La1-xCexFeO3-δ perovskite oxides as efficient catalysts for CWAO of acrylic acid by A-site Ce doping. Applied Catalysis B: Environmental, 245: 20-28, 2019.