王卉 讲师（高校）

闲看庭前花开花落,宠辱不惊。

(1) 2009-09 至 2014-06, 浙江大学, 化学, 博士
(2) 2005-09 至 2009-06, 北京化工大学, 应用化学, 学士

2014-07 至 今, 杭州电子科技大学, 材料与环境工程学院，材料专业硕导，讲师

1. 多孔材料、纳米材料的合成与应用。

2. 环境催化材料的制备与大气污染控制研究。

《物理化学》、《化学与人类文明》

1. Pt（Pd）系催化剂脱氢与供氧中心匹配性构筑及其催化燃烧的适应性原理研究；

2. Cu-Ce不锈钢阳极氧化膜催化剂的制备及其在低温等离子体协同催化脱除VOCs反应中的应用研究

1. 大孔容SiO₂合成的环保新工艺研发；

2. PPCP工艺中脱硫脱硝整体式催化剂的研发；

3. 凝析油中汞的存在方式研究；

1. 第一作者与通讯作者论文

[1] Hui Wang, Xinyi Long, Xuyi Yang, Qiyin Huang, Zewen Chen, Shengji Wu, Jie Zhou. Preparation of highly active and SO2-resistant Cr-based non-carbon adsorbents via plasma for elemental mercury removal. Separation and Purifcation Technology. 2024,338, 126569.  (大类一区)

[2] Chen Ye, Tingwei Fang, Xinyi Long, Hui Wang*, Shao Chen, Jie Zhou. Non‑thermal plasma synthesis of supported Cu‑Mn‑Ce mixed oxide catalyst towards highly improved catalytic performance for volatile organic compound oxidation. Environmental Science and Pollution Research. 2023, 30, 11994.

[3]Shengji Wu, Yalun Ma, Wangsheng Yu, Hui Wang*, Wei Yang*, Lei Che, Zhongxi Han. SO₂ resistance of CeO₂- and Co₃O₄-supported activated carbon during removal of mercury from flue gas: A comparative study. Fuel. 2023, 334, 126636. (大类一区)

[4]Wangsheng Yu, Lei Zhang, He Xu, Hui Wang*, Xu Peng, Shengji Wu*, Wei Yang, Jie Zhou. Highly dispersed transition metal oxide-supported activated carbon prepared by plasma for removal of elemental mercury. Fuel.2021, 286, 119427. (大类一区)

[5] Hui Wang, Wangsheng Yu, Xu Peng, Zewen Chen, Shengji Wu*, Qinqin Yu*, Wei Yanga, Jie Zhou. Highly efficient catalytic adsorbents designed by an “adaption” strategy for removal of elemental mercury. Chemical Engineering Journal. 2020, 388, 124220. (大类一区)

[6] Hui Wang*, Yifei Zhang, Mingwei Wu, He Xu, Xiaoyong Jin, Jie Zhou, and Zhaoyin Hou*. Pd/SiO₂ Catalysts Prepared via a Dielectric Barrier Discharge Hydrogen Plasma with Improved Performance for Low-Temperature Catalytic Combustion of Toluene. Industrial Engineering Chemistry Research. 2020, 59, 20316.

[7] Hui Wang, Zewen Chen, Dandan Chen, Qinqin Yu, Wei Yang, Jie Zhou, Shengji Wu. Facile, template-free synthesis of macroporous SiO₂ as catalyst support towards highly enhanced catalytic performance for soot combustion. Chemical Engineering Journal, 2019, 375, 121958. (大类一区)

[8] Hui Wang, Jiafeng Wang, Lei Zhang, Zewen Chen, Qinqin Yu*, Shengji Wu*. A New Strategy for Improving the Efficiency of Low-temperature Selective Catalytic Reduction of NO_x with CH₄ via the Combination of Non-thermal Plasma and Ag₂O/TiO₂ Photocatalyst. Chemical Research in Chinese Universities, 2019, 35, 1062.

[9] Hui Wang, Penghui Tian, Zewen Chen, et al. Effect of coke formation on catalytic activity tests for catalytic combustion of toluene: the difficulty of measuring TOF and T₉₈ accurately. Chemical Engineering Communications. 2019, 206, 22.

[10] Hui Wang, Yingying Cao, Zewen Chen, et al. High-efficiency removal of NO_x over natural mordenite using an enhanced plasma-catalytic process at ambient temperature. Fuel. 2018, 224, 323. (大类一区)

[11] Hui Wang, Zewen Chen, Xingyu Deng, et al. Template-free synthesis of macroporous SiO₂ catalyst supports for diesel soot combustion. Industrial Engineering Chemistry Research. 2018, 57, 11600.

[12] Hui Wang,Wei Yang, Penghui Tian, et al.A highly active and anti-coking Pd-Pt/SiO₂ catalyst for catalytic combustion of toluene at low temperature. Applied Catalysis A: General. 2017, 529:60–67.

[13] Hui Wang, Xiangxiang Li, Ping Chen, et al. An enhanced plasma-catalytic method for DeNOx in the simulated flue gas. ChemComm. 2013, 49, 9353. (大类二区,Top)

[14] Hui Wang, Xiangxiang Li, Min Chen, et al. The effect of water vapor on NOx storage and reduction in combination with plasma. Catalysis Today, 2013, 211.

[15] Hui Wang, Qinqin Yu, Tong Liu, et al. NO_x storage and reduction with methane by plasma at ambient temperature. RSC Advances. 2012, 2, 5094.

[16] Qinqin Yu#, Hui Wang#, Tong Liu, et al. High-efficiency removal of NOx using a combined adsorption-discharge plasma catalytic process. Environmental Science Technology. 2012, 46, 2331. (并列一作，大类一区)

[17] Hui Wang, Qinqin Yu, Liping Xiao, et al. Superior storage performance for NO in modified natural mordenite. Chinese Journal of Chemistry. 2012, 30, 1511.

1. Pt（Pd）系催化剂脱氢与供氧中心匹配性构筑及其催化燃烧的适应性原理研究；

2. Cu-Ce不锈钢阳极氧化膜催化剂的制备及其在低温等离子体协同催化脱除VOCs反应中的应用研究

[1] 一种高效的碳烟脱除催化剂的制备工艺及其产品。授权公告号ZL202110601303.9。（指导学生）

[2]一种挥发性有机物催化燃烧催化剂的制备方法。ZL202011632283.3。（指导学生）

[3]一种高效烟气脱汞吸附剂的制备新工艺。ZL202011632325.3。（指导学生）

[4]一种适用于低温等离子协同催化脱硝方法及其整体式催化剂的制备方法。ZL201910754139.8。(一作)

[5]适用于低温等离子协同催化降解VOCs反应工艺及膜催化剂制备工艺。ZL201910753610.1。(一作)

[6]一种用于烟气脱汞的新型改性活性炭材料的制备方法。授权公告号ZL201910208329.X。(一作)

[7]一种用于碳烟燃烧的大孔SiO₂材料的一锅法合成方法及其产品。ZL201810915784.9。(一作)

[8]一种大孔白炭黑的生化制备新方法。ZL201711274239.8。(一作)

[9]一种超疏水白炭黑的低温等离子体制备新工艺。ZL201810541791.7。(一作)

[10]一种用于催化燃烧的活性组分高分散催化剂及其制备方法。ZL201510953284.0。(一作)