姓名:张新艳
职称:环境工程 博士 副教授 硕士生导师
电子信箱:83354693@qq.com
主要学习、工作经历
一、教育背景:
(1)2009-09至2012-07,中国科学院生态环境研究中心,环境工程专业,博士
(2)2006-09至2009-07,中国科学院东北地理与农业生态研究所,环境科学专业,硕士
(3)2002-09至2006-07,四川大学,环境科学与工程系,学士
二、工作经历:
(1)2012-07至现在,BETVlCTOR登录网站,环境工程系,副教授
三、主要研究方向
围绕大气污染控制与环境友好催化前沿领域研究,主要研究方向为:
(1)机动车氮氧化物尾气高效控制
(2)纳米功能材料研发与应用
(3)非均相催化反应过程与机制
(4)挥发性有机物污染控制
四、主要教学工作
(一) 本科生课程:大气污染控制工程实验、工业废水处理、工程水文学、环境催化技术
(二) 研究生课程:环境催化-原理及应用
五、主要学术成果
(一) 项目:
[1] 吉林省科技厅,优秀青年基金项目,20180520081JH,高效消除汽车氮氧化物尾气的铜基小孔分子筛整体催化剂的研制,2018-01至2019-12,主持。
[2] 国家自然科学基金委员会,青年基金项目,21603017,多级孔碳材料的功能修饰、尺寸调控和催化性能研究,2017-01至2019-12,参加。
[3] 国家科技部,国家重点研发计划项目子课题,光纤制品及产业化关键制备技术,2016YFB0303804,2017-01至2020-06,参加。
[4] 吉林省生态环保厅,环境保护科研项目,吉环科字第2014-10号,水泥行业新标准达标实用技术研究,2014-12至2015-12,参加。
[5] 国家自然科学基金委员会,青年基金项目,21307007,新型铁基小孔分子筛的制备及其脱硝反应过程与机理研究,2014-01至2016-12,主持。
[6] 吉林省科技厅,青年科研基金项目,20140520150JH,高效消除柴油车氮氧化物尾气的催化材料研制,2014-01至2016-12,主持。
(二) 获奖:
[1] 张新艳(1/6),高效消除硝酸厂氧化亚氮尾气的催化材料,吉林省科协,吉林省自然科学学术成果奖,三等奖,2015
[2] 张新艳(7/8),我国典型地区汞污染特征、环境过程及治理途径研究,吉林省科技厅,吉林省科学技术奖,三等奖,2012
(三)专著:
[1] 张新艳,杨铭,卢仁杰. 过渡金属负载分子筛材料的制备及其氧化亚氮分解反应性能研究. 长春: 吉林大学出版社, 2014.11.
[2] 杨颖,孙立,张新艳. 石墨烯复合材料的制备及性能研究. 北京: 国防工业出版社, 2015.12.
(四) 代表性论文:
[1] Yao Wang, Ganggang Li, Shaoqing Zhang, Xinyan Zhang*, Xin Zhang*, Zhengping Hao, Promoting effect of Ce and Mn addition on Cu-SSZ-39 zeolites for NH3-SCR reaction: Activity, hydrothermal stability, and mechanism study. Chemical Engineering Journal, 2020, 393: 124782.
[2] Xinyan Zhang, Tingting Dou, Yao Wang, Jingyue Yang, Xue Wang, Yanyan Guo, Qun Shen, Xin Zhang*, Shaoqing Zhang*, Green synthesis of Cu-SSZ-13 zeolite by seed-assisted route for effective reduction of nitric oxide. Journal of Cleaner Production. 2019, 236: 117667.
[3] Xin Zhang; Chengzhong Jiang; Yuxun Shan; Xinyan Zhang*; Yan Zhao; Influence of the void fraction and vertical gas vents on the waste decomposition in semi-aerobic landfill: Lab-scale tests. Waste Management, 2019, 100, 28-35.
[4] Yang Xue, Xiaoyu Wang, Yan Zhao*, Lei Xu, Tingting Wang, Xinyan Zhang*, Preparation of recyclable BiOI/luffa fiber composite and its highly efficient visible light photocatalytic properties. Journal of Cleaner Production, 200: 945-953, 2018.
[5] Tingting Dou, Hongguo Hao, Xinyan Zhang*, Song Guo, Shuang Yao*, Zhiming Zhang, Extended structure constructed from {Co7} cluster-containing sandwichtype polyoxometalate. Inorganic Chemistry Communications, 95: 117–121, 2018.
[6] Yanyan Guo*, Xiuling Liu, Huisheng Duan, Gongzheng Yan, Kexin Zhang, Kunpeng Wang, Yunshi Wang, Guoying Zhao, Xinyan Zhang, Feifei Huang, Junjie Zhang, Investigation on local structure surrounding erbium cations in fluoride glasses with TeO2 introduction for 2.7 mm emission. Journal of Alloys and Compounds, 753: 502-507, 2018.
[7] Jie Zhao, Jinghui Yan, Huaijie Jia, Shaowei Zhong, Xinyan Zhang*, Lei Xu*, BiVO4/g-C3N4 composite visible-light photocatalyst for effective elimination of aqueous organic pollutants, Journal of Molecular Catalysis: Chemical, 2016,424:162-170.
[8] Xinyan Zhang, Yuanyuan Guan, Ya Xiong, Yan Zhao*, Shaoqing Zhang, Nitrous oxide decomposition over Co/SBA-15 catalysts: the influence of metal loading, cobalt precursor, and solvent effect, Materials Research Innovations, 20(7), 487-494,2016.
[9] Xinyan Zhang, Shaoqing Zhang*, Lin Long, Improvement of zeolites on solidification/stabilization of mercury-contaminated wastes in chemically bonded phosphate ceramics: stabilization effect and mechanism study. Asia-Pacific Journal of Chemical Engineering, 10, 210-218, 2015.
[10] Xinyan Zhang, Qun Shen, Chi He, Chunyan Ma, Zhaotie Liu*, Zhengping Hao*, Promotional effects and mechanism of second cations on activity and stability of Co-MOR for nitrous oxide decomposition: UV-vis spectroscopy and EXAFS analysis, Chemical Engineering Journal, 226, 95-104, 2013.
[11] Xinyan Zhang, Qun Shen, Chi He, Chunyan Ma, Jie Cheng, Landong Li*, Zhengping Hao*, Investigation of selective catalytic reduction of N2O by NH3 over an Fe–ordenite catalyst: reaction mechanism and O2 effect, ACS Catalysis, 2(4), 512-520, 2012.
[12] Xinyan Zhang, Qun Shen, Chi He, Yufei Wang, Jie Cheng*, Zhengping Hao*, CoMOR zeolite catalyst prepared by buffered ion exchange for effective decomposition of nitrous oxide, Journal of Hazardous Materials, 192, 1756-1765, 2011.
[13] Xinyan Zhang, Qun Shen, Chi He, Chunyan Ma, Jie Cheng, Zhengping Hao*, N2O catalytic reduction by NH3 over Fe-zeolites: effective removal and active site, Catalysis Communications, 18, 151-155, 2012.
[14] Xinyan Zhang, Qun Shen, Chi He, Chunyan Ma, Zhiming Liu*, Zhengping Hao*, Decomposition of nitrous oxide over Co-zeolite catalysts: role of zeolite structure and active site, Catalysis Science &Technology, 2(6), 1249-1258, 2012.
[15] Xinyan Zhang, Qun Shen, Chi He, Chunyan Ma, Jie Cheng, Zhengping Hao*, Investigation of nitrous oxide decomposition over highly active and stable bimetallic CoFe-MOR zeolite catalyst: effective removal and mechanism study, Catalysis Science &Technology, 2(5), 1059-1067, 2012.
[16] Xinyan Zhang, Qichao Wang*, Shaoqing Zhang, Xiaojing Sun, Zhongsheng Zhang, Stabilization/solidification (S/S) of mercury-contaminated hazardous wastes using thiol-functionalized zeolite and Portland cement, Journal of Hazardous Materials, 168, 1575-1580, 2009.
[17] Xinyan Zhang, Yuanyuan Guan, Shaoqing Zhang, Ming Yang, Yan Zhao*, Zhengping Hao*, Effective catalytic decomposition of nitrous oxide over highly active and stable bimetallic CoIn-mordenite zeolite. Journal of Molecular Catalysis A: Chemical, 2014, 395: 202-209.
[18] Shaoqing Zhang, Xinyan Zhang, Ya Xiong, Guoping Wang, Na Zheng. Effective solidification/stabilisation of mercury-contaminated wastes using zeolites and chemically bonded phosphate ceramics. Waste Management & Research, 33(2) 183-190, 2015.
[19] Wenjuan Xue, Xinyan Zhang, Peng Li, Zaotie Liu, Zhenping Hao*, Chunyan Ma*, Catalytic Activities for the Complete Oxidation of Ethylene over Au-Cu/Co3O4 Catalysts, Acta Physico-Chimica Sinica, 28(6), 535-540, 2011.
[20] Chi He, Xinyan Zhang, Shaokai Gao, Jinsheng Chen, Zhengping Hao*, Nanometric Pd-confined mesoporous silica as high-efficient catalyst for toluene low temperature removal: Effects of support morphology and textural property, Journal of Industrial and Engineering Chemistry, 18(5), 1598-1605, 2012.
[21] Lin Yue, Chi He, Xinyan Zhang, Peng Li, Zhuo Wang, Hailin Wang, Zhengping Hao*, Catalytic behavior and reaction routes of MEK oxidation over Pd/ZSM-5 and Pd-Ce/ZSM-5 catalysts, Journal of Hazardous Materials, 244-245, 613-620, 2013.
[22] Minfang Wu, Hui Wang, Liangshu Zhong, Xinyan Zhang, Zhengping Hao, Qun Shen, Wei Wei, Guangren Qian, Yuhan Sun. Effects of acid pretreatment on Fe-ZSM-5 and Fe-beta catalysts for N2O decomposition. Chinese Journal of Catalysis 37: 898–907, 2016.
[23]刘冬梅,许凤泉, 张新艳*, 张少庆. 超声辅助法制备新型FeMOR 分子筛催化NOx 还原反应性能研究. 环境科学学报,37(8): 3114-3120, 2017.
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