2022年实验室发表论文

1.        Impact of COVID-19 lockdown on carbonaceous aerosols in a polluted city: Composition characterization, source apportionment, influence factors of secondary formation. Zhe Dong, Shenbo Wang, Jiabin Sun, Luqi Shang, Zihan Li, Ruiqin Zhang. Chemosphere. 2022, 307, 136028.

2.        Catalytic oxidation of volatile organic compounds over manganese-based oxide catalysts: Performance, deactivation and future opportunities. Tonglu Lu, Fangcheng Su, Qian Zhao, Juexiu Li, Changsen Zhang, Ruiqin Zhang, Panpan Liu. Separation and Purification Technology. 2022, 296, 121436.

3.        Formation pathway of secondary inorganic aerosol and its influencing factors in Northern China: Comparison between urban and rural sites. Shenbo Wang, Lingling Wang, Xiangge Fan, Nan Wang, Shuangliang Ma, Ruiqin Zhang. Science of the Total Environment. 2022, 840, 156404.

4.        Characteristics, source analysis and chemical reactivity of ambient VOCs in a heavily polluted city of central China. Aizhi Huang, Shasha Yin, Minghao Yuan, Yifei Xu,Shijie Yu, Dong Zhang, Xuan Lu, Ruiqin Zhang.Atmospheric Pollution Research. 2022, 13(4), 101390.

5.        Modeling of reducing NH₄NO₃ in PM_2.5 under high ammonia emission in urban areas: Based on high-resolution data. Nan Jiang, Yunfei Wei,Ruiqin Zhang, Qi Hao, Xuexin Hao, Changsen Zhang, Ruoyu Hu. Journal of Cleaner Production. 2022, 350, 131499.

6.        Effects of Cu doping on electrochemical NO_x removal by La_0.8Sr_0.2MnO₃ perovskites. Wenjie Li, Ke Liang, Jiabin Wang, Junhui Wen, Jingyi Shi, Zhenzong Zhang, Wei Jiang, Ruiqin Zhang, Honbing Yu. Environmental Research. 2022, 210, 112955.

7.        Elevated particle acidity enhanced the sulfate formation during the COVID-19 pandemic in Zhengzhou, China.Jieru Yang, Shenbo Wang, Ruiqin Zhang, Shasha Yin. Environmental Pollution. 2022, 296, 118716.

8.        Assessment of summertime O₃ formation and the O₃-NO_X-VOC sensitivity in Zhengzhou, China using an observation-based model. Xudong Wang, Shasha Yin, Ruiqin Zhang, Minghao Yuan, Qi Ying. Science of The Total Environment. 2022, 813, 152449.

9.        Evaluation of symbiotic technology-based energy conservation and emission reduction benefits in iron and steel industry: Case study of Henan, China. Ruoyu Xue, Shanshan Wang, Gengyu Gao, Donghui Liu, Wenqi Long, Ruiqin Zhang. Journal of Cleaner Production. 2022, 338, 130616.

10.    Z-scheme Cu₂(OH)₃F nanosheets-decorated 3D Bi₂WO₆ heterojunction with an intimate hetero-surface contact through a hydrogen bond for enhanced photoinduced charge separation and transfer. Lifen Wang, Yonggang Liu, Yinjun Lin, Xueying Zhang, Yonghao Yu, Ruiqin Zhang. Chemical Engineering Journal. 2022, 427, 131704.

11.    Facile preparation and efficient Mn_xCo_y porous nanosheets for the sustainable catalytic process of soot.Miaomiao Hu, Kun Zhou, Tingyi Zhao, Zheng Li, Xianhai Zeng, Di Yu, Xuehua Yu, Mingqin Zhao, Zhihui Shao, Qixiang Xu, Bing Cui. Green Energy Environment. 2022.

12.    Formic acid assisted fabrication of Oxygen-doped Rod-like carbon nitride with improved photocatalytic hydrogen evolution.Jiaqi Wen, Shuaiyang Zhang, Yonggang Liu, Yunpu Zhai. Journal of Colloid and Interface Science. 2022, 624: 338-347.

13.    A novel P-doped and NCDs loaded g-C₃N₄ with enhanced charges separation for photocatalytic hydrogen evolution.Shuaiyang Zhang, Yan Yang, Yunpu Zhai, Jiaqi Wen, Meng Zhang, Jingkun Yu, Siyu Lu. Chinese Chemical Letters. 2022.

14.    Which kind of nitrogen chemical states doped carbon dots loaded by g-C₃N₄ is the best for photocatalytic hydrogen production. Shuaiyang Zhang, Mengjie Gao, Yunpu Zhai, Jiaqi Wen, Jingkun Yu,Tiwei He, Zhenhui Kang.Journal of Colloid and Interface Science. 2022, 622: 662-674.

15.    Eco-efficiency assessment of industrial parks in Central China: a slack-based data envelopment analysis.Gengyu Gao, Shanshan Wang, Ruoyu Xue, Donghui Liu, Bingyi Huang, Ruiqin Zhang. Environmental Science and Pollution Research. 2022, 29(20): 30410–30426.

16.    Air pollutants and CO₂ emissions in industrial parks and evaluation of their green upgrade on regional air quality improvement: a case study of seven cities in Henan Province.Wanting Hei, Xiao Li, Gengyu Gao, Shanshan Wang, Ruiqin Zhang, Ke Wang. Atmosphere. 2022, 13(3), 383.

17.    Simultaneous removal of toluene in gas and electricity production by using a single-chamber microbial fuel cell-biotricking filter system.Fang Wang, Yinchi Xu, Wenyue Dai, Fangzheng Su, Juexiu Li, Changsen Zhang,Ruiqin Zhang, Panpan Liu. ACS Sustainable Chemistry Engineering. 2022, 10(26): 8559–8567.

18.    Effects of winter heating on urban black carbon: characteristics, sources and its correlation with meteorological factors.Xinyu Liu, Yangbing Wei, Xinhui Liu, Lei Zu, Bowen Wang, Shenbo Wang, Ruiqin Zhang, Rencheng Zhu.Atmosphere. 2022, 13(7), 1071.

19.    Research characteristics and trends of power sector carbon emissions: a bibliometric analysis from various perspectives. Ke Liang, Wenjie Li, Junhui Wen, Weikun Ai, Jiabin Wang. Environmental Science and Pollution Research. 2022.

20.    Uracil-mediated supramolecular assembly for C-enriched porous carbon nitrides with enhanced photocatalytic hydrogen evolution. Jiaqi Wen, Yuewei Wang, Hao Zhao, Meng Zhang, Shuaiyang Zhang, Yonggang Liu, Yunpu Zhai. New Journal of Chemistry. 2022, 46(10): 4647-4653.

21.    Xudong Wang; Shasha Yin: Ruiqin Zhang; Minghao Yuan; Qi Ying. Assessment of summertime O₃ formation and the O₃-NO_X-VOC sensitivity in Zhengzhou, China using an observation-based model. Science of the Total Environment. 813 (2022): 152449

22.    COVID-19管控前后不同污染阶段PM_2.5中二次无机离子变化特征.姜楠, 郝雪新, 郝祺, 魏云飞, 张瑜, 吕政卿, 张瑞芹. 环境科学. 2022.

23.    基于高空间分辨网格的郑州市城镇居民PM_2.5暴露浓度与健康风险变化评估. 李媛, 徐艺斐, 袁明浩, 苏方成, 王申博, 王克, 张瑞芹.环境科学. 2022.

24.    河南省18个城市大气污染物分布特征、区域来源和传输路径. 刘光瑾,苏方成, 徐起翔, 张瑞芹, 王克. 环境科学. 2022,43(08):3953-3965.

25.    郑州市多站点大气VOCs变化特征及源解析. 王冰, 尹沙沙, 黄爱枝, 张栋, 卢轩, 张瑞芹. 环境科学. 2022.

26.    河南省北部区域霾污染过程中城市和农村点位PM_2.5组分差异.王申博, 王玲玲, 范相阁, 王楠, 马双良, 张瑞芹. 2022.

27.    郑州市大气PM_2.5中重金属的污染特征、来源及健康风险评估:基于高分辨数据. 曲光辉, 孙俊苹, 王申博, 姜楠, 李利萍, 刘洋, 陈红阳, 马双良. 环境科学. 2022,43(04): 1706-1715.

28.    郑州市典型污染过程PM₁中重金属浓度、来源及健康风险评估.翟诗婷, 王申博, 张栋, 赵孝囡, 杨洁茹, 刘洋, 陈红阳, 张瑞芹. 环境科学. 2022, 43(3): 1180-1189.

29.    基于隧道测试的机动车VOCs排放特征及源解析. 刘鑫会, 朱仁成, 金博强, 梅慧, 祖雷, 尹沙沙, 张瑞芹, 胡京南. 环境科学.2022, 43(04): 1777-1787.

30.    新冠疫情管控措施对郑州市PM_2.5浓度、粒径分布、组分和来源的影响. 黄兵役, 王申博, 和兵, 薛若雨, 高更宇, 张瑞芹. 环境科学. 2022, 43(06): 2840-2850.

31.    河南省臭氧污染趋势特征及敏感性变化. 晏洋洋, 尹沙沙, 何秦, 秦凯, 张瑞芹.环境科学. 2022, 43(6): 2947-2956.