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王栋

发布日期:2022-04-26 点击数:

王栋 博士

教授 博士生导师

Emaildwang@sdu.edu.cn

地址:beat365下载唯一官方网(千佛山校区)


研究领域:

大气污染控制技术;能源与环境催化关键功能材料设计;二氧化碳催化转化与利用。


教育经历:

2011 – 2016 beat365下载唯一官方网 动力工程及工程热物理 博士

2007 – 2011 beat365下载唯一官方网 热能与动力工程 学士


工作履历:

2022 – 至今 beat365下载唯一官方网 beat365手机版官方网站 教授

2020 – 2022 哥伦比亚大学 化学工程系 副研究员

2018 – 2020 佐治亚理工学院 土木环境工程系 博士后研究员

2016 – 2018 清华大学 环境学院 博士后研究员


科研项目:

主持或参加国家重点研发计划课题/子课题、美国能源部催化科学项目、美国国家科学基金会标准项目、国家自然科学基金重点项目/青年项目等中美科研项目20余项。


学术兼职:

美国化学会、英国皇家化学会、美国同步辐射催化联合会成员;Frontiers in Energy Research副编辑;Environmental Science & TechnologyApplied Catalysis B: EnvironmentalACS CatalysisChemical Engineering JournalJournal of Hazardous Materials等期刊审稿人。


学术论文(近三年):

2022

[1] Tu, Chunyan; Fan, Huahua; Wang, Dong; Rui, Ning; Du, Yonghua; Senanayake, Sanjaya D; Xie, Zhenhua; Nie, Xiaowa; Chen, Jingguang G. CO2-assisted ethane aromatization over zinc and phosphorous modified ZSM-5 catalysts[J]. Applied Catalysis B: Environmental, 2022, 304, 120956.

[2] Xie, Zhenhua; Gomez, Elaine; Wang, Dong; Lee, JiHoon; Wang, Tiefeng; Chen, Jingguang G. Coupling CO2 reduction with ethane aromatization for enhancing catalytic stability of iron-modified ZSM-5[J]. Journal of Energy Chemistry, 2022, 66, 210 - 217.

[3] Zhang, Wan; Li, Yingjie; Chai shoubing; He Zirui; Zhang, Chunxiao; Wang, Dong. Effect of Mn-doped CaO on NO removal by CO in carbonation of calcium looping for CO2 capture in a fluidized bed reactor. Fuel, 2022, 310, 122395.

[4] Yang, Qilei; Li, Qi; Wang, Xiyang; Wang, Xiao; Li, Lei; Chu, Xuefeng; Wang, Dong; Men, Jishuai; Li, Xinbo; Si, Wenzhe; Peng, Yue; Ma, Yongliang; Li, Junhua. Synergistic Effects of a CeO2/SmMn2O5-H Diesel Oxidation Catalyst Induced by Acid-Selective Dissolution Drive the Catalytic Oxidation Reaction[J]. ACS Applied Materials & Interfaces, 2022, 14(2), 2860 - 2870.

[5] Zhang, Xiang; Xuan, Yue; Wang, Bin; Gao, Chuan; Niu, Shengli; Zhao, Gaiju; Wang, Dong; Li, Junhua; Lu, Chunmei; Crittenden, John C. Precise regulation of acid pretreatment for red mud SCR catalyst: Targeting on optimizing the acidity and reducibility[J]. Frontiers of Environmental Science & Engineering, 2022, 16(7), 88.

2021

[1] Wang, Dong; Chen, Qiuzhun; Zhang, Xiang; Gao, Chuan; Wang, Bin; Huang, Xu; Peng, Yue; Li, Junhua; Lu, Chunmei; Crittenden, John. Multipollutant Control (MPC) of Flue Gas from Stationary Sources Using SCR Technology: A Critical Review[J]. Environmental Science & Technology, 2021, 55(5), 2743 - 2766.

[2] Wang, Dong; Xie, Zhenhua; Porosoff, Marc D; Chen, Jingguang G. Recent advances in carbon dioxide hydrogenation to produce olefins and aromatics[J]. Chem, 2021, 7(9), 2277 - 2311.

[3] Wang, Bin; Yang, Guangpeng; Yang, Qilei ; Li, Bing; Wang, Dong; Peng, Yue; Li, Junhua; Lu, Chunmei; Crittenden, John. Fabrication of Nanohybrid Spinel@CuO Catalysts for Propane Oxidation: Modified Spinel and Enhanced Activity by Temperature-Dependent Acid Sites[J]. ACS Applied Materials & Interfaces, 2021, 13(23), 27106 - 27118.

[4] Wang, Bin; Ma, Jun; Wang, Dong; Gong, Zhiqiang; Shi, Qinglong; Gao, Chuan; Lu, Chunmei; Crittenden, John. Acid-pretreated red mud for selective catalytic reduction of NOx with NH3: Insights into inhibition mechanism of binders[J]. Catalysis Today, 2021, 376, 247 - 254.

[5] Gao, Chuan; Yang, Guangpeng; Huang, Xu; Yang, Qilei; Li, Bing; Wang, Dong; Peng, Yue; Li, Junhua; Lu, Chunmei; Crittenden, John. Key intermediates from simultaneous removal of NOx and chlorobenzene over a V2O5–WO3/TiO2 catalyst: a combined experimental and DFT study[J]. Catalysis Science & Technology, 2021,11, 7260 - 7267.

[6] Chen, Qiuzhun; Wang, Dong; Gao, Chuan; Wang, Bin; Niu, Shengli; Zhao, Gaiju; Peng, Yue; Li, Junhua; Lu, Chunmei; Crittenden, John. Cerium-tungsten oxides supported on activated red mud for the selective catalytic reduction of NOx[J]. Green Energy & Environment, 2021, 10.1016/j.gee.2021.03.008.

[7] Chen, Qiuzhun; Zhang, Xiang; Li, Bing; Niu, Shengli; Zhao, Gaiju; Wang, Dong; Peng, Yue; Li, Junhua; Lu, Chunmei; Crittenden, John. Insight into the promotion mechanism of activated carbon on the monolithic honeycomb red mud catalyst for selective catalytic reduction of NOx[J]. Frontiers of Environmental Science & Engineering, 2021, 15(5), 92.

[8] Wang, Liping; Guo, Jingru; Yang, Guangpeng; Yu, Deyou; Wang, Dong; Guo, Feng; Guan, Weisheng. Rational tailoring of the electronic structure for the SrxNaTayO3 semiconductor: Insights into its enhanced photoactivity and optical property[J]. Chemosphere, 2021, 273, 129748.

[9] Li, Hui; Liu, Fengsheng; Helian, Yaxin; Yang, Guangpeng; Wu, Zhongjie; Gao, Yan; Guo, Min; Cui, Ping; Wang, Dong; Yu, Mingzhi. Inspection of various precipitant on SrO-based catalyst for transesterification: Catalytic performance, reusability and characterizations[J]. Catalysis Today, 2021, 376, 197 - 204.

[10] Yang, Taoyu; Yu, Deyou; Wang, Dong; Yang, Tao; Li, Zexiong; Wu, Minghua; Petru, Michal; Crittenden, John. Accelerating Fe(Ⅲ)/Fe(Ⅱ) cycle via Fe(Ⅱ) substitution for enhancing Fenton-like performance of Fe-MOFs[J]. Applied Catalysis B: Environmental, 2021, 286(5), 119859.

[11] Yang, Qilei; Li, Jinyi; Wang, Dong; Peng, Yue; Ma, Yongliang. Activity improvement of acid treatment on LaFeO3 catalyst for CO oxidation[J]. Catalysis Today, 2021, 376, 205 - 210.

[12] Li, Lei; Yang, Qilei; Wang, Dong; Peng, Yue; Yan, Jinlong; Li, Junhua; Crittenden, John. Facile synthesis λ-MnO2 spinel for highly effective catalytic oxidation of benzene[J]. Chemical Engineering Journal, 2021, 421, 127828.

[13] Yang, Qilei; Li, Qi; Li, Lei; Peng, Yue; Wang, Dong; Ma, Yongliang; Li, Junhua. Synthesis of α-MnO2-like rod catalyst using YMn2O5 A-site sacrificial strategy for efficient benzene oxidation[J]. Journal of Hazardous Materials, 2021, 403, 123811.

[14] Huang, Xu; Wang, Dong; Yang, Qilei; Peng, Yue; Li, Junhua. Multi-pollutant control (MPC) of NO and chlorobenzene from industrial furnaces using a vanadia-based SCR catalyst[J]. Applied Catalysis B: Environmental, 2021, 285, 119835.

[15] Li, Lei; Yang, Qilei; Wang, Bin; Wang, Dong; Peng, Yue; Li, Junhua; Crittenden, John. Sacrificial carbon strategy for facile fabrication of highly-dispersed cobalt-silicon nanocomposites: Insight into its performance on the CO and CH4 oxidation[J]. Journal of Cleaner Production, 2021, 278, 123920.

[16] Yan, Junchen; Broesicke, Osvaldo A; Tong, Xin; Wang, Dong; Li, Duo; Crittenden, John C. Multidisciplinary design optimization of distributed energy generation systems: The trade-offs between life cycle environmental and economic impacts[J]. Applied Energy, 2021, 284, 116197.

[17] Zhang, Kaihang; Kujawski, David; Spurrell, Chris; Wang, Dong; Yan, Junchen; Crittenden, John C. Extraction of PFOA from dilute wastewater using ionic liquids that are dissolved in N-octanol[J]. Journal of Hazardous Materials, 2021, 404, 124091.

2020

[1] Wang, Dong; Yang, Qilei; Yang, Guangpeng; Xiong, Shangchao; Li, Xiansheng; Peng, Yue; Li, Junhua; Crittenden, John. Rational tuning towards A/B-sites double-occupying cobalt on tri-metallic spinel: Insights into its catalytic activity on toluene catalytic oxidation[J]. Chemical Engineering Journal, 2020, 399, 125792.

[2] Gong, Zhiqiang; Ma, Jun; Wang, Dong; Niu, Shengli; Yan, Bohui; Shi, Qinglong; Lu, Chunmei; Crittenden, John. Insights into modified red mud for the selective catalytic reduction of NOx: Activation mechanism of targeted leaching[J]. Journal of Hazardous Materials, 2020, 394, 122536.

[3] Yu, Deyou; Wang, Liping; Yang, Taoyu; Yang, Guangpeng; Wang, Dong; Ni, Huagang; Wu, Minghua. Tuning Lewis acidity of iron-based metal-organic frameworks for enhanced catalytic ozonation[J]. Chemical Engineering Journal, 2020, 404, 127075.

[4] Yan, Junchen; Broesicke, Osvaldo A; Wang, Dong; Li, Duo; Crittenden, John C. Parametric life cycle assessment for distributed combined cooling, heating and power integrated with solar energy and energy storage[J]. Journal of Cleaner Production, 2020, 250, 119483.

[5] Huang, Xu; Wang, Dong; Zhao, Huimin; Yang, Qilei; Peng, Yue; Li, Junhua. Severe deactivation and artificial enrichment of thallium on commercial SCR catalysts installed in cement kiln[J]. Applied Catalysis B: Environmental, 2020, 277, 119194.

[6] Gao, Chuan; Yang, Guangpeng; Wang, Dong; Gong, Zhiqiang; Zhang, Xiang; Wang, Bin; Peng, Yue; Li, Junhua; Lu, Chunmei; Crittenden, John. Modified red mud catalyst for the selective catalytic reduction of nitrogen oxides: Impact mechanism of cerium precursors on surface physicochemical properties[J]. Chemosphere, 2020, 257, 127215

[7] Li, Lei; Zhang, Changyu; Yan, Jinlong; Wang, Dong; Peng, Yue; Li, Junhua; Crittenden, John. Distinctive Bimetallic Oxides for Enhanced Catalytic Toluene Combustion: Insights into the Tunable Fabrication of Mn-Ce Hollow Structure[J]. ChemCatChem, 2020, 12(10), 2872 - 2879.

[8] Li, Jinxiao; Han, Kuihua; Wang, Dong; Teng, Zhaocai; Cao, Yang; Qi, Jianhui; Li, Ming; Wang, Meimei. Fabrication of high performance structural N-doped hierarchical porous carbon for supercapacitors[J]. Carbon, 2020, 164, 42 - 50.

[9] Li, Jinxiao; Han, Kuihua; Wang, Dong; Teng, Zhaocai; Cao, Yang; Qi, Jianhui; Li, Ming; Wang, Meimei. Corrigendum to “Fabrication of high performance structural N-doped hierarchical porous carbon for supercapacitor”[J]. Carbon, 2020, 167, 933 - 934.

[10] Xiong, Shangchao; Peng, Yue; Wang, Dong; Huang, Nan; Zhang, Qinfang; Yang, Shijian; Chen, Jianjun; Li, Junhua. The role of the Cu dopant on a Mn3O4 spinel SCR catalyst: Improvement of low-temperature activity and sulfur resistance[J]. Chemical Engineering Journal, 2020, 387, 124090.

[11] Zhou, Wenbo; Niu, Shengli; Wang, Dong; Lu, Chunmei; Han, Kuihua; Li, Yingjie; Zhu, Ying. Promoting effect of Ti in the Ti-modified γ-Fe2O3 catalyst on its performance in the selective catalytic reduction of NO with ammonia, a DFT calculation study[J]. Fuel Chem. Technol., 2020, 48(10), 1224 - 1235.

[12] Huang, Xu; Liu, Zhan; Wang, Dong; Peng, Yue; Li, Junhua. The effect of additives and intermediates on vanadia-based catalyst for multi-pollutant control[J]. Catalysis Science & Technology, 2020, 10(2), 323 - 326.


发明专利(已授权):

[1] 成型赤泥催化剂及其制备方法和应用,CN202010023266.3,王栋, 王斌, 路春美, 韩奎华, 施庆龙, 巩志强, 陈邱谆.

[2] 用于VOCsNO协同净化的改性复合氧化物催化剂及其制备方法, CN202010813319.1, 彭悦, 杨其磊, 黄旭, 李琪, 王栋, 司文哲, 马永亮, 李俊华.

[3] -铬改性催化剂及其制备方法和应用, CN201910983709.0, 王栋, 彭悦, 韩奎华, 李俊华, 路春美, 王斌, 高传.

[4] SCR催化剂粉体及其制备方法和应用, CN201910105290.9, 王栋, 彭悦, 韩奎华, 路春美, 张亢.

[5] 脱硝协同脱CVOCs的催化剂及其制备方法和应用, CN201910105528.8, 彭悦, 王栋, 陈建军, 黄旭, 李俊华.

[6] 镓基催化剂及其制备方法和应用, CN201910983671.7, 彭悦, 王栋, 杨其磊, 黄旭, 陈建军, 李俊华, 郝吉明.

[7] 脱硝催化剂及其制备方法和应用, CN201910620841.5, 李俊华, 熊尚超, 王栋, 彭悦, 陈建军.

[8] 一种赤泥催化剂及成型方法与应用, CN201911340659.0, 牛胜利, 施庆龙, 韩奎华, 巩志强, 王栋, 赵改菊, 王斌, 闫博慧, 陈邱谆, 路春美.

[9] 一种赤泥脱硝催化剂及其制备方法, CN201811445961.8, 巩志强, 牛胜利, 王栋, 路春美, 韩奎华, 李英杰, 施庆龙, 陈邱谆.

[10] 一种用于SCR除尘脱硝的复合滤料纤维及制备方法, CN201710486860.4, 王栋, 韩奎华, 彭悦, 路春美, 张亢, 李兵, 王羽.

[11] 一种低温除尘脱硝双功能复合滤料纤维及制备方法, CN201710488583.0, 王栋, 彭悦, 韩奎华, 路春美, 司文哲, 张亢, 甘丽娜.

[12] 一种协同控制NOxCVOCs三叶草型催化剂的制备方法及其应用, CN201710539456.9, 李俊华, 甘丽娜, 彭悦, 于双江, 王栋, 陈建军.


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