2019年实验室发表论文

SCI

1.       Photocatalyst Co₃O₄/red phosphorus forefficient degradation of malachite green under visible light irradiation.Jianli Tao, Meng Zhang, Xiang Gao, Hao Zhao, Zhenpeng Ren, Donghui Li, JiaojiaoLi, Ruiqin Zhang, Yonggang Liu*, Yunpu Zhai*. Materials Chemistry and Physics.2020, 240(15), 122185

2.       Characteristics and formation mechanisms of secondary inorganicaerosols in PM2.5 at a high time resolution during winter in Zhengzhou, China.Liuming Yang, Shenbo Wang, Shiguang Duan, Qishe Yan, Nan Jiang*, RuiqinZhang**. Atmospheric Research. 2020, 233C, 104696

3.       Recent development of a refined multiple air pollutant emissioninventory of vehicles in the Central Plains of China. Gu, Xingke; Yin, Shasha;Lu, Xuan; Zhang, Huan; Wang, Lingling; Bai, Ling; Wang, Chen; Zhang, Ruiqin;Yuan, Minghao. Journal of environmental sciences (China), 2019, 84, 80-96.

4.       NLRP3 inflammasome activation is associated with PM2.5-inducedcardiac functional and pathological injury in mice Ma, Y., Wang, S., Wang, K.et al. Environ Sci Pollut Res, 2019, 26, 16181.

5.       Co-benefits analysis of energy cascade utilization in an industrialpark in China. Ma, Y., Wang, S., Wang, K. et al. Environ Sci Pollut Res (2019)26: 16181-16194.

6.       PM2.5 Emission Characteristics and Estimation of Emission ReductionPotential from Typical Industrial Sources in Anyang. Du, Xiao-Shen; Yan, Li;He, Jin-Yu; Wang, Xu-Ying; Wang, Ke; Zhang, Rui-Qin. Environmental Science. 2019,40(5),2043-2051.

7.       Emission Characteristics and List of Inorganic Elements in FineParticles of Typical Industrial Kilns in Zhengzhou City. Zhao, Qing-Yan; Han,Shi-Jie; Zhang, Yi-Shun; Yang, Liu-Ming; Zhang, Rui-Qin; Yan, Qi-She. EnvironmentalScience,.2019, 40(5), 2052-2061.

8.       Chemical characteristics, sources apportionment, and risk assessmentof PM2.5 in different functional areas of an emerging megacity in China.Xiaohan Liu, Nan Jiang*, Xue Yu, Ruiqin Zhang, Shengli Li, Qiang Li, PanruKang. Aerosol and Air Quality Research. 2019, 19, 2222–2238

9.       Size distributions and size-segregated chemical profiles ofparticulate matter in a traffic tunnel of East-Central China. Zhe Dong, NanJiang*, Shiguang Duan, Li Zhang, Shengli Li, Ruiqin Zhang**. AtmosphericPollution Research. 2019, 10, 1873-1883

10.   Catalytic performance of a Bi2O3–Fe2O3 system in soot combustion.Yunyun Xie, Changsen Zhang*. New J. Chem. 2019, 43:15368—15374

11.   A study on the catalytic oxidation of soot by Sn–Ce compositeoxides: adsorbed oxygen and defect sites synergistically enhance catalyticactivity. Dengtai Wang, Changsen Zhang*. New J. Chem. 2019, 43, 17423—17432

12.   Analysis of Bio-Oil Derived from Catalytic Pyrolysis of Pine Sawdustover Sodium Salts-Supported γ-Al2O3. Xiangfei Xue, Changsen Zhang*. EnvironmentalProgress & Sustainable Energy. 2019, 38 (5)

13.   Synthesis flower-like BiVO4/BiOI core/shell heterostructurephotocatalyst for tetracycline degradation under visible light irradiation.Yongyang Chen, Qishe Yan*. Journal of Materials Science: Materials inElectronics. (2019) 30:9311–9321

14.   Constructing a novel hierarchical β-Ag2MoO4/BiVO4 photocatalyst withZ-scheme heterojunction utilizing Ag as an electron mediator. Yongyang Chen,Qishe Yan*. Applied Surface Science. 498 (2019) 143860

15.   Constructing a novel hierarchical ZnMoO4/BiOI heterojunction forefficient photocatalytic degradation of tetracycline. Peiying Wang, Qishe Yan*.Journal of Materials Science: Materials in Electronics. 2019, 30:19069-19076

16.   Constructing a new Z-scheme multi-heterojunction photocataslytsAg-AgI/BiOI-Bi₂O₃ with enhanced photocatalytic activity.Xin Xie, Qishe Yan*.Journal of Hazardous Materials. 371 (2019)304-315

17.   Enhanced photocatalytic performance of ZnFe2O4/BiOI hybrid for thedegradation of methyl orange photocatalytic activity. Menghan Zhang, qisheYan*. Journal of Materials Science: Materials in Electronics. 2019, 30:8055-8063 DOI: 10.1007/s10854-019-01127-0

18.   Life cycle assessment of reduction of environmental impacts viaindustrial symbiosis in an energy-intensive industrial park in China. ShanshanWang, Chunyang Lu, Yu Gao, Ke Wang, Ruiqin Zhang. Journal of CleanerProduction. 2019, 241

19.   Synthesis and Characterization of Z-scheme Ag₂WO₄/Bi₂MoO₆Heterojunction Photocatalyst: Enhanced Visible-light Photodegradation ofOrganic Pollutant. Yushan Si,Qishe yan*. Journal of Materials Science:Materials in Electronics. 2019,31:1191-1199   

20.   Size-fractionated particulate elements in an inland city of China:Deposition flux in human respiratory, health risks, source apportionment, anddry deposition. Shenbo Wang, Qishe Yan , Ruiqin Zhang* , Nan Jiang , ShashaYin, Huaqing Ye. Environmental Pollution 2019, 247:515-523

21.   Characterization of PM2.5-Bound Polycyclic Aromatic Hydrocarbons atTwo Central China Cities: Seasonal Variation, Sources, and Health RiskAssessment. Qun Wang, Zhangsen Dong, Yue Guo, Fei Yu, Zhenya Zhang, RuiqinZhang*. Archives of Environmental Contamination and Toxicology 2019,78,20-33

22.   Influence of CeO2 Addition to Ni-Cu/HZSM-5 Catalysts onHydrodeoxygenation of Bio-Oil. Wenhe Wang, Changsen Zhang, Guanghui Chen,Ruiqin Zhang*. Applied sciences 2019,9:1-15

23.   Exploring the Driving Forces and Reduction Potential of IndustrialEnergy-Related CO₂ Emissions during 2001–2030: A Case Study forHenan Province, China. Lei liu, Ke Wang, Shanshan Wang, Ruiqin Zhang, XiaoyanTang. Sustainability. 2019，11(4), 1176

24.   Emission characteristic and environmental impact of process-basedVOCs from prebaked anode manufacturing industry in Zhengzhou, China. ShijieHan, Qingyan Zhao, Ruiqin Zhang, Yonggang Liu, Chen Li, Yishun Zhang, Yidan Li,Shasha Yin*, Qishe Yan**. Atmospheric Pollution Research. 2019,11(1):66-77

25.   Characterization of individual particles and meteorologicalconditions during the cold season in Zhengzhou using a single particle aerosolmass spectrometer. Shenbo Wang, Shasha Yin, Ruiqin Zhang, Liuming Yang, LeishiZhang, Qishe Yan, Nan Jiang, Xiaoyan Tang.Atmospheric Research. 2019,219:13-23

26.   Size-fractionated particulate elements in an inland city of China:Deposition flux in human respiratory, health risks, source apportionment, anddry deposition. Shenbo Wang, Qishe Yan, Ruiqin Zhang, Nan Jiang, Shasha Yin,Huaqing Ye. Environmental Pollution. 2019,247:515-523

27.   Influence of CeO2 Addition to Ni-Cu/HZSM-5 Catalysts onHydrodeoxygenation of Bio-Oil   WenheWang, Changsen Zhang, Guanghui Chen, Ruiqin Zhang. APPLIEDSCIENCES-BASEL.2019,9(6)

28.   Exploring the Driving Forces and Reduction Potential of IndustrialEnergy-Related CO2 Emissions during 2001-2030: A Case Study for Henan Province,China. Lei Liu, Ke Wang, Shanshan Wang, Ruiqin Zhang, Xiaoyan Tang. Sustainability,2019, 11(4), 1176

29.   Process Simulation and Economic Evaluation of Bio-Oil Two-StageHydrogenation Production. Xiaoyuechuan Ma, Shusheng Pang, Ruiqin Zhang, QixiangXu. Applied. Sciences. 2019, 9(4), 693

30.   Sources and spatial distribution of PM2.5-bound polycyclic aromatichydrocarbons in Zhengzhou in 2016. Qiang Li, Nan Jiang, Xue Yu, Zhe Dong,Shiguang Duan, Leishi Zhang, Ruiqin Zhang. Atmospheric Research, 2019,216:65-75

31.   Pollution Characterization, Source Identification, and Health Risksof Atmospheric-Particle-Bound Heavy Metals in PM10 and PM2.5 at Multiple Sitesin an Emerging Megacity in the Central Region of China. Nan Jiang, Xiaohan Liu,Shanshan Wang, Xue Yu, Shasha Yin, Shiguang Duan, Shenbo Wang, Ruiqin Zhang,Shengli Li. Aerosol and Air Quality Research. 2019,19(2):247-271

32.   Transport Pathways and Potential Sources of PM2.5 During the Winterin Zhengzhou. Shiguang Duan, Nan Jiang, Liuming Yang, Ruiqin Zhang. EnvironmentalScience. 2019,40:86-93

33.   Health Benefit Evaluation for PM10 and PM2.5 Pollution Control inZhengzhou,China,2014-2016. Shijie Han, Jia Wang, Qishe Yan, Liuming Yang,Qingyan, Zhao, Shenbo Wang, Chen Li, Yishun Zhang, Ruiqin Zhang. EnvironmentalScience. 2019,40:2565-2571

34.    “Catalytic pyrolysis of lignin overhierarchical HZSM-5 zeolites prepared by post-treatment with alkalinesolutions”, Tang, Songshan; Zhang, Changsen* ; Xue, Xiangfei ; Pan, Zeyou] ;Wang, Dengtai; Zhang, Ruiqin, Journal ofAnalytical and Applied Pyrolysis, 2019, 137, 86-95

35.    “Facile synthesis of ultrathin redphosphorus nanosheets with excellent photocatalytic performances”, Yuewei Sun,Zhenpeng Ren, Yonggang Liu*, Rongbing Fu, MaterialsLetters, 236 (2019) 542-546

36.    Sources and spatial distribution of PM2.5-bound polycyclic aromatic hydrocarbons in Zhengzhou in 2016. Li, Q., Jiang,N.*, Yu, X., Dong, Z., Duan, S., Zhang, L., & Zhang, R.* Atmospheric Research.2019,216, 65-75

37.    “Variationtendency of pollution characterization, sources, and health risks ofPM2.5-bound polycyclic aromatic hydrocarbons in an emerging megacity in China:Based on three-year data”. Nan Jiang, Liping Li, Shanshan Wang, Qiang Li, ZheDong, Shiguang Duan, Ruiqin Zhang, Shengli Li. Atmospheric Research, 2019, 217, 81-92

38.    “Spatial-seasonaldistribution and source apportionment of PM2.5-bound polycyclic aromatichydrocarbons in Zhengzhou in 2016”. Qiang Li, Nan Jiang*, Xue Yu, Zhe Dong,Shiguang Duan, Ruiqin Zhang**. AtmosphericResearch, 2019, 216, 65-75.