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2022年：

[1] Zhang C, Zhao X*, Wang C*, Hakizimana I, Crittenden JC, Azhar AL. Electrochemical flow-through disinfection reduces antibiotic resistance genes and horizontal transfer risk across bacterial species. Water Research, 2022, Accepted.

[2] Ma JB, Jiang GY, Ma QQ, Du MM, Wang H, Wu JG, Wang C*, Xie XW*, Li T, Chen SX, Zhang LX, Wu M. Portable immunobiosensor directly and rapidly detects Mycobacterium tuberculosis in sputum. Analytical Methods. 2022. Accepted.

[3] Ma JB, Jiang GY, Wang H, Du MM, Wang C*, Xie XW*, Li T, Chen SX. Rapid Detection of Airborne Protein from Mycobacterium tuberculosis through a Biosensor Detection System. Analytical Methods. 2022. Accepted.

[4] Wang YC, Wang C*, Han MF, Tong Z, Lin YT, Hu XR, Deng JG, Hsi HC. Inhibiting effect of quorum quenching on biomass accumulation: A clogging control strategy in gas biofilters. Chemical Engineering Journal, 2022. 432, 134313.

[5] Song L, Zhou JF, Wang C*, Meng G, Li YF, Jarinc M, Wu ZY, Xie X*. Airborne pathogenic microorganisms and air cleaning technology development: A review. Journal of Hazardous Materials, 2022, 127429

[6] Wang YC, Wang C*, Han MF, Tong Z, Hu XR, Lin YT, Zhao X*. Reduction of biofilm adhesion strength by adjusting the characteristics of biofilms through enzymatic quorum quenching. Chemosphere, 2022, 288, 132465.

 

2021年：

[7] Ma JB, Du MM, Wang C*, Xie XW*, Wang H, Li T*, Chen SX, Zhang LX, Mao S, Zhou XH*, Wu M. Rapid and sensitive detection of Mycobacterium tuberculosis by an enhanced nanobiosensor. ACS sensor, 2021, 6(9), 3367–3376

[8] Song L. Wang C*, Bioaerosol is an important transmission route of antibiotic resistance genes in pig farms. Environment International, 2021, 154, 106559.

[9] Ma JB, Du MM, Wang C*, Xie XW*, Wang H, Zhang Q. Advances in airborne microorganisms detection using biosensors: A critical review. Front. Environ. Sci. Eng. 2021, 15(47):

[10] Wang YC, Han MF, Jia TP, Hu XR, Zhu HQ, Tong Z, Lin YT, Wang C*, Liu DZ*, Peng YZ*, Wang G, Meng J, Zhai ZX, Zhang Y, Deng JG, Hsi HC. Emissions, measurement, and control of odor in livestock farms: A review. Science of the Total Environment, 2021, 776, 145735.

[11] Han MF, Wang C*, Yang NY, Li YF, Hu XR, Duan EH. Determination of filter bed structure characteristics and influence on performance of a 3D matrix biofilter in gaseous chlorobenzene treatment. Biochemical Engineering Journal, 2021, 165, 107829

2020年：

[12] Han M F, Hu XR, Wang YC, Tong Z, Wang C*, Cheng ZW*, Feng K, Qu MM, Chen JM, Deng JG, Hsi HC. Comparison of separated and combined photodegradation and biofiltration technology for the treatment of volatile organic compounds: A critical review. Critical Review in Environmental Science and Technology, 2020, 12, 1854566.

[13] Jiang GY, Wang C*, Song L, Wang X, Zhou YY, Fei CN, Liu H. Aerosol transmission, an indispensable route of COVID-2019 spread: case study of a department-store cluster. Frontiers of Environmental Science and Engineering, 2021, https://doi.org/10.1007/s11783-021-1386-6

[14] Lu SY, Meng G, Wang C*, Chen H. Photocatalytic inactivation of airborne bacteria in a polyurethane foam reactor loaded with a hybrid of MXene and anatase TiO₂ exposing {001} facets. Chemical Engineering Journal, 2020, 403, 125756. [10.652](0)

[15] Chen M, Zhao X, Wang C*, Pan S, Zhang C, Wang YC. Electrochemical oxidation of reverse osmosis concentrates using macroporous Ti-ENTA/SnO2-Sb flow-through anode：degradation performance, energy efficiency and toxicity assessment. Journal of Hazardous Materials, 2020, 401, 123295. [9.038]（0）

[16] Chen M , Pan S, Zhang C, Wang C*, Zhang WQ, Chen ZF, Zhao X, Zhao YX. Electrochemical oxidation of reverse osmosis concentrates using enhanced TiO2-NTA/SnO2-Sb anodes with/without PbO2 layer. Chemical Engineering Journal, 2020, 399, 125756. [10.652](0)

[17] Chen M, Wang C*, Zhao X, Wang YC, Zhang WQ, Chen ZF, Meng XY, Luo JM, Crittenden J. Development of a highly efficient electrochemical flow-through anode based on inner in-site enhanced TiO₂-nanotubes array. Environment International, 2020, 140, 105813. [7.577](0)

[18] Song L, Wang C*, Wang YZ. Optimized determination of airborne tetracycline resistance genes in laboratory atmosphere. Frontiers of Environmental Science and Engineering, 2020, 14(6):95-105.(0)

[19] Wang C*, Song L, Zhang ZW, Wang YZ, Xie X. .Microwave-induced release and degradation of airborne antibiotic resistance genes (ARGs) from Escherichia coli bioaerosol based on microwave absorbing material. Journal of Hazardous Materials, 2020, 394, 122535.(0)

[20] Hu XR, Han MF, Wang C*, Yang NY, Wang YC, Duan EH, Hsi HC, Deng JG. A short review of bioaerosol emissions from gas bioreactors: Health threats, influencing factors and control technologies, Chemosphere. 2020, 126737 [5.778](0)

[21] Yang NY, Wang C*, Han MF. Gel-encapsulated microorganisms used as a strategy to rapidly recover biofilters after starvation interruption, Journal of Environmental Management. 2020, 261, 110237. [5.647](0)

[22] Yang NY, Wang C*, Han MF; Li YF; Hsi HC. Performance improvement of a biofilter by using gel-encapsulated microorganisms assembled in a 3D mesh material. Chemosphere. 2020, 126358.(0)

[23] Han MF, Wang C*, Yang NY, Hu XR, Wang YC, Duan EH, Ren HW, Hsi HC, Deng JG. Performance enhancement of a biofilter with pH buffering and filter bed supporting material in removal of chlorobenzene, Chemosphere. 2020, 251, 126358.(0)

2019年：

[24] Chen M，Wang C*， Wang YC，Meng XY，Chen ZF，Zhang WQ，Tan G. Kinetic, Mechanism and Mass transfer impact on electrochemical oxidation of MIT using Ti-enhanced nanotube arrays/SnO₂-Sb anode, Electrochimica Acta. 2019, 323, 134779. [6.215](4)

[25] Wang C*, Hu XR, Zhang, ZW. Airborne disinfection using microwave-based technology: energy efficient and distinct inactivation mechanism compared with waterborne disinfection. Journal of Aerosol Science, 2019,137.(0)

[26] Wang YZ, Song L, Wang C*. Distribution of antibiotic resistance genes and bacteria from six atmospheric environments: exposure risk to human, Science of the Total Environment. 2019, 694,133750. [6.551](3)

[27] Wang YC, Chen M, Wang C*, Meng XY, Zhang WQ, Chen ZF, Crittenden J. Electrochemical degradation of methylisothiazolinone by using Ti/SnO2-Sb2O3/α, β-PbO2 electrode: Kinetics, energy efficiency, oxidation mechanism and degradation pathway. Chemical Engineering Journal, 2019, 374: 626-636.(13)

[28] Wang C*, Zhang Z W, Liu H. Microwave-induced release and degradation of airborne endotoxins from Escherichia coli bioaerosol, Journal of Hazardous Materials, 2019, 366: 27-33.(5)

[29] Wang C*, Lu S Y, Zhang Z W. Inactivation of airborne bacteria using different UV sources: Performance modeling, energy utilization, and endotoxin degradation, Science of The Total Environment, 2019, 655 (10): 787-795.(6)

[30] Han M F, Wang C*, Yang N Y, Li Y F. Determination of design parameters and cost-effectiveness analysis for a two-liquid phase biofilter treating gaseous dichloromethane, Biochemical Engineering Journal, 2019, 143: 81-90. [3.475](5)

2018年：

[31] Han M F, Wang C*, Fu Y. Treatment of hydrophobic volatile organic compounds using two-liquid phase biofilters, Science of the Total Environment, 2018, (640-641): 1447-1454.(14)

[32] Wang N Y, Wang C*. Effects of microcystin-LR on the tissue growth and physiological responses of the aquatic plant Iris pseudacorus L. Aquatic Toxicology, 2018, 200: 197-205.(3)

[33] Han M F, Liu H, Wang C*. Comparison of physical technologies for biomass control in biofilters treating gaseous toluene, Journal of the Air & Waste Management Association, 2018, 1995: 1-8.(4)

[34] Wang Y C, Fu Y, Wang C*. Dissimilar emission characteristics between bioaerosol and suspended particles from gaseous biofilters and bioaerosol health risk evaluation, Aerosol and Air Quality, 2018, 18: 1874-1885.(10)

[35] Wang Y C, Wang C*, Shi S, Fang S. Improved removal performance and mechanism investigation of papermaking wastewater treatment using manganese enhanced Fenton reaction, Water Science Technology, 2018, 77(10): 2509-2516.(1)

[36] Zhang Z W, Xiao L, Ji M, Wang C*. 2018, Assessment of the spatial–temporal variations on the water quality of stagnant Haihe River, Tianjin, North China. Water Science and Technology: Water supply, 2018, 18(3): 1103-1116.(1)

[37] Wang Y C, Shi S, Wang C*, Fang S. Degradation of pulp mill wastewater by a heterogeneous Fenton-like catalyst Fe/Mn supported on zeolite, Environment Protection Engineering, 2018, 44(2): 129-143.(2)

[38] Lu S Y, Wang N Y, Wang C*. Oxidation and biotoxicity assessment of microcystin-LR using different AOPs based on UV, O₃ and H₂O₂. Frontier Environmental Science and Engineering, 2018, 12(3): 1-7.(14)

[39] Tian Z, Wang C*, Ji M. Full-scale Dissolved air flotation (DAF) equipment for emergency treatment of eutrophic water. Water Science and Technology, 2018. 77(7): 1802-1809.(2)

[40] Liu H, Zhang Z W, Wen N J, Wang C*. Determination and risk assessment of airborne endotoxin concentrations in a university campus, Journal of Aerosol Science, 2018. 115: 146-157.(15)

2017年：

[41] Sun X, Wang C*, Ji M. Production and release of microcystin-LR in microcystis aeruginosa  treatment using chemical algicide, Fresenius Environmental Bulletin, 2017, 26(1): 572-578.(2)

[42] Wen N J, Liu H, Fu Y, Wang C*. Optimization and influence mechanism of sampling and analysis of airborne endotoxin based on Limulus amebocyte lysate assay, Aerosol and Air Quality Research, 2017, 17: 1000-1010. (7)

[43] Shi S, Wang C*, Fang S, Jia M H, Li X G. Removal performance and water quality analysis of paper machine white water in a full-scale wastewater treatment plant, Environmental Technology, 2017, 38(11): 1443-1451. (4)

[44] Wang N Y, Wang K, Wang C*, Comparison of different algicides on growth of Microcystis aeruginosa and microcystin release, as well as its removal pathway in riverways, Frontiers of Environmental Science and Engineering, 2017, 11(6): 1-8.(2)

2016年：

[45]  Liu X，Wang C*, Ji M, Zhou YN．Pretreatment of ultra-high concentration pharmaceutical wastewater by a combined Fenton and Electrolytic Oxidation technologies：COD reduction, biodegradability improvement and biotoxicity removal, Environmental Progress, 2016, 35(3). 772-778.(1)

[46] Fang S, Wang C^*, Chao BT. Operationg conditions on the optimization and water quality analysis on the advanced treatment of papermaking wastewater by coagulation/Fenton process. Desalination and Water Treatment, 2016, 57(27): 12755-12762.（5）

[47] Wang D, Hu Q Y, Li M, Wang C^*, Ji M. Evaluating the removal of organic fraction of commingled chemical industrial wastewater by activated sludge process augmented with powdered activated carbon[J]. Arabian Journal of Chemistry.2016, 9(S2):1951-1961. IF=3.613(8)

2015年：

[48] Wang D, Li M, Wang C*, Ji M. Optimization and effect of powdered activated carbon addition on commingled chemical industrial wastewater treatment in a sequencing batch reactor．Desalination and Water Treatment，2015, 56(1): 24-32.(1)

[49] Wang C*, Chen WN, Hu QY, Ji M, Gao X. Dynamic fouling behavior and cake layer structure changes in nonwoven membrane bioreactor for bath wastewater treatment, Chemical Engineering Journal, 2015, 264(3): 462-469.(32) 

[50] Liu X，Li Y，Wang C*，et al．Cr (VI) removal by a new type of anion exchange resin DEX-Cr: Adsorption affecting factors, isotherms, kinetics, and desorption regeneration．Environmental Progress & Sustainable Energy，2015, 34(2): 387-393.(12)

[51] Hu Q Y, Wang C*. Interaction of gaseous aromatic and aliphatic compounds in thermophilic biofilters[J]. Journal of Hazardous Materials.2015, 300:210-217.(12)

[52] Hu Q Y, Wang C*, Huang K X. Biofiltration performance and characteristics of high-temperature gaseous benzene, hexane and toluene[J]. Chemical Engineering Journal.2015, 279:689-695.(26)

[53] Hu Q Y, Li M, Wang C*, Ji M. Influence of powdered activated carbon addition on water quality, sludge properties, and microbial characteristics in the biological treatment of commingled industrial wastewater[J]. Journal of Hazardous Materials.2015, 295:1-8.(20)

[54] Liu X，Li Y，Wang C*, Ji M．Comparison study on Cr (VI) removal by anion exchange resins of Amberlite IRA96, D301R, and DEX-Cr: isotherm, kinetics, thermodynamics, and regeneration studies．Desalination and Water Treatment，2015, 55(7)：1841-1850．(3)

2014年：

[55] Wang C*, Huang Y-k, Zhao Q, Ji M. Treatment of secondary effluent using a three-dimensional electrode system: COD removal, biotoxicity assessment, and disinfection effects, Chemical Engineering Journal, 2014, 243: 1-6. (73)

2013年：

[56] Sun L, Wang C*, Ji M, Kong X. Treatment of mixed chemical wastewater and the agglomeration mechanism via an internal electrolysis filter, Chemical Engineering Journal, 2013, 215-216: 50-56. (18)

[57] Kong X, Wang C*, Ji M. Analysis of microbial metabolic characteristics in mesophilic and thermophilic biofilters using Biolog plate technique, Chemical Engineering Journal, 2013, 230: 415-421.(50)

2012年：

[58] Huang YK, Li S, Wang C*, Ji M. Simultaneous removal of COD and NH3-N in secondary effluent of high-salinity industrial waste-water by electrochemical oxidation, Journal of Chemical Technology and Biotechnology, 2012, 87(7): 130-136. (16)

[59] Sun L, Wang C*, Ji M, Liu X F. COD removal and biodegradability enhancement of pharmaceutical wastewater using a multi layer internal electrolysis reactor, Asian Journal of chemistry, 2012, 24, (1): 1112-116. (2)

[60] Wang C*, Xi JY, Hu HY, Kang IS. Effects of design parameters and cost analysis of combined ultraviolet-biofilter systems treating gaseous chlorobenzene based on mathematical modeling, Frontier of Environmental Science and Engineering, 2012, 6(4):588-594.(2) 

[61] Wang C*, Kong X, Zhang XY. Mesophilic and thermophilic biofiltration of gaseous toluene in a long-term operation: performance evaluation, biomass accumulation, mass balance analysis and isolation identification, Journal of Hazardous Material, 2012, 229-230: 94-99.(31)

[62] Wang C*, Xi JY, Hu HY, Yao Y. Mechanisms of UV photodegradation on performance of a subsequent biofilter treating gaseous chlorobenzene, Huan jing ke xue, 2012, 33(1): 32-36.(新增加)(3)

2011年：

[63] Wang C, Xi JY, Hu HY, Kang I-S. Modeling of a Combined Ultraviolet-Biofilter System to Treat Gaseous Chlorobenzene I: Model Development and Parametric Sensitivity, Journal of air and waste management association, 2011, 61(3): 295-301.(3)

[64] Sun L, Wang C*, Ji M, Wang Fen. Achieving biodegradability enhancement and acute biotoxicity removal through the treatment of pharmaceutical wastewater using a combined internal electrolysis and ultrasonic irradiation technology, Frontier of environmental science and engineering in China, 2011, 5(3): 481-487.(17)

 

2009年及以前：

[65] Wang C, Xi JY, Hu HY, Yao Y. Stimulative effects of ozone on a biofilter treating gaseous chlorobenzene. Environmental Science and Technology. 2009, 43 (24): 9407-9412.(39)

[66] Wang C, Xi JY, Hu HY, Yao Y. Effects of UV pretreatment on microbial community structure and metabolic characteristics in a subsequent biofilter treating gaseous chlorobenzene. Bioresource Technology. 2009, 100(23), 5581-5587. (24)

[67] Wang C, Xi JY, Hu HY, Yao Y. Advantages of combined UV photodegradation and biofiltration processes to treat gaseous chlorobenzene. Journal of Hazardous Materials, 2009, 171(1-3), 1120-1125.(50)

[68] Wang C, Xi JY, Hu HY. Effects of operation conditions on removal rate constant and quantum yield of gaseous chlorobenzene degradation in a photochemical reactor. Journal of  the air and waste management association. 2009, 59(4), 386-391).(2)

[69] Wang C, Xi JY, Hu HY. Reduction of toxic products and bioaerosol emission of a combined Ultraviolet-biofilter process for chlorobenzene treatment. Journal of air and waste management association. 2009, 59(4), 405-410.(11)

[70] Wang C, Xi JY, Hu HY. Effects of nitrogen source, empty bed residence time and inlet concentration on biofilter removal of chlorobenzene. Engineering in life science. 2009, 9(2), 109-115.(12) 

[71] Wang C, Xi JY, Hu HY. Chemical identification and acute biotoxicity assessment of gaseous chlorobenzene photodegradation products. Chemosphere, 2008, 73(8):1167-1171.(34)

[72] Wang C, Xi JY, Hu HY. A novel integrated UV-biofilter system to treat high concentration of gaseous chlorobenzene, Chinese Science Bulletin, 2008, 53(17):2712-2716.(20)

[73] Wang C, Xi JY, Hu HY, Wen XH. Biodegradation of Gaseous Chlorobenzene by White-rot Fungus Phanerochaete chrysosporium. Biomedical and Environmental Science, 2008, 21(6):474-478.(24)

[74] Wang C, Xi JY, Hu HY. Identification and reduction of toxic products of chlorobenzene treatment by a combined UV-biofilter process. Journal of Biotechnology, 2008, 136:S659.(0)