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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)
非第一/通讯作者:
[75] Wei L, Liu YX, Dai HX, Cui SP, Wang C, Hsi HC, Duan EH, Peng Y. Deng JG*. Electronic structure tailoring of Al3+ and Ta5+ doped CeO2 for the synergistic removal of NO and chlorinated organics. Applied Catalysis B: Environmental, 2022, 304, 120939.
[76] Feng Y, Wang CC, Wang C, Huang HB, Hsi HC, Duan EH, Liu YX, Guo GS, Dai HX, Deng JG*. Catalytic stability enhancement for pollutant removal via balancing lattice oxygen mobility and VOCs adsorption, Journal of Hazardous Materials, 2022, 424, 127337.
[77] Zhao X*, Che Y, Mo YH, Huang WQ, Wang C. Fabrication of PEI modified GO/MXene composite membrane and its application in removing metal cations from water. Journal of membrane science. 2021, 640, 119847.
[78] Yang KC, Zhao YX*, Ji M, Li ZL, Zhai SY, Zhou X, Wang Q, Wang C, Liang B. Challenges and opportunities for the biodegradation of chlorophenols: Aerobic, anaerobic and bioelectrochemical processes. Water Research. 2021,193,116862.
[79] Liao HY, Pan SY, You SW, Hou CH, Wang C, Deng JG, Hsi HC*. Mercury vapor adsorption and sustainable recovery using novel electrothermal swing system with gold-electrodeposited activated carbon fiber cloth. Journal of Hazardous Materials. https://doi.org/10.1016/j.jhazmat.2020.124586
[80] Sergi GS, Qu, XL, Alvarez P, Chaplin B, Chen W, Crittenden J, Feng YJ, Gao GD, He Z, Hou CH, Hu X, Jiang GB, Kim JH, Li JS, Li QL, Ma J, Ma JX, Nienhauser A, Niu JF, Pan BC, Quan X, Ronzani F, Villagran D, Waite D, Walker WS, Wang C, Wong M; Westerhoff P. Opportunities for nanotechnology to enhance electrochemical treatment of pollutants in potable water and industrial wastewater -A perspective. Environmental Science: Nano. 2020. DOI: 10.1039/D0EN00194E.(0) 【Cover paper】
[81] Wang ZW, Ma PJ, Zheng K, Wang C, Liu YX, Dai HX, Wang CC, Hsi HC, Deng JG.Size effect, mutual inhibition and oxidation mechanism of the catalytic removal of a toluene and acetone mixture over TiO2 nanosheet-supported Pt nanocatalysts. Applied Catalysis B: Environmental, 2020, 274, 118963.(0)
[82] Zhang HH, Dai LY, Feng Y, Xu YH, Liu YX, Guo GS, Dai HX, Wang CC, Wang C, Hsi HC, huang HB, Deng JG. A Resource utilization method for volatile organic compounds emission from the semiconductor industry: Selective catalytic oxidation of isopropanol to acetone Over Au/α-Fe2O3 nanosheets. Applied Catalysis B: Environmental, 2020, 275, 119011.(0)
[83] Ren HW, Gong RQ, Li MY, Liu YZ, Zhu HY, Wang C, Duan EH. Natural deep eutectic solvents efficient catalytic conversion of cellulose to total reducing sugars (TRS), Journal of Molecular Liquids. 2020, 43 (24): 113282.(0)
[84] Chen YT, Huang YP, Wang C, Deng JG, Hsi HC. Comprehending adsorption of methylethylketone and toluene and microwave regeneration effectiveness for beaded activated carbon derived from recycled waste bamboo tar. Journal of the air & waste management association, 2020, 70(6): 616-628.(0)
[85] Meng XY, Chen ZF, Wang C, Zhang WQ, Zhang KH, Zhou SQ, Luo JM, Liu N, Zhou DD, Li D, Crittenden J. Development of a three-dimensional electrochemical system using a blue TiO2/SnO2−Sb2O3 anode for treating low-Ionic-strength wastewater. Environmental Science and Technology. 2019, 53 (23): 13784-13793.(0)
[86] Wang, D, Ji, M, Wang, C, Degradation of organic pollutants and characteristics of activated sludge in an anaerobic/anoxic/oxic reactor treating chemical industrial wastewater. Brazilian Journal of Chemical Engineering, 2014, 31(3): 703-713.(7)
[87] Wang D, Ji M, Wang C. The stimulating effects of the addition of glucose on denitrification and removal of recalcitrant organic compounds. Brazilian Journal of Chemical Engineering. 2014, 31(1): 9-18.(5)
[88] Chen WN, Li RY, Wang C, Ji M, Fu LW. Satoshi, Nanba. Advanced treatment of industrial wastewater by heterogeneous Fenton reaction using a novel composite catalyst. Asian Journal of Chemistry. 2013, 32: 102-108.(0)
[89] Zhang, J. Wang, SG, Wang, C, Hu, HY. Chemical identification and genotoxicity analysis of petrochemical industrial wastewater. Frontiers of Environmental Science and Engineering, 2012, 14(6):95-105.(9)