Soil Biology & Biochemistry, 70 (2014) 142-150. (IF=4.410 此期刊在土壤科学学科类期刊中排名第一)[2] Chen MJ, Cao F, Li FB, Liu CS*, Tong H, Wu HJ, Hu M, Anaerobic Transformation of DDTs Related to Biogenic Fe(II) and Microbial Community Activities in Paddy Soils. Journal of Agricultural and Food Chemistry, 61 (2013) 2224-2233. (IF= 3.107 此期刊在农业综合学科类期刊中排名第一)[3] Chen MJ, Shih K, Hu M, Li FB, Liu CS*, Wu WJ, Tong H, Biostimulation of Indigenous Microbial Communities for Anaerobic Transformation of Pentachlorophenol in Paddy Soils of South China. Journal of Agricultural and Food Chemistry, 60 (2012) 2967-2975. (IF=3.107 此期刊在农业综合学科类期刊中排名第一)[4] Liu CS, Shih K, Sun CX, Wang F, Oxidative degradation of propachlor by ferrous and copper ion activated persulfate.Science of the Total Environment, 416 (2012) 507-512. (IF=3.163) [5] Liu H, Liang MY, Liu CS*, Gao YX, Zhou JM, Catalytic degradation of phenol in sonolysis by coal ash and H2O2/O3. Chemical Engineering Journal, 153 (2009)131-137. (IF=4.058)[6] Li FB, Liu CS*,Zhang LJ, et al., The oxidative degradation of 2-mercaptobenzothiazole at the interface of β-MnO2 and water. Journal of Hazardous Materials, 154 (2008) 1098-1105. (IF=4.331)[7] Liu CS,Li FB, Li XM, et al., The Effect of Iron Oxides and Oxalate on the Photodegradation of 2-Mercaptobenzothiazole. Journal of Molecular Catalysis A: Chemistry, 252 (2006) 40-48. (IF= 3.679)[8] Liu CS, Shih K, Wei L, Wang F, Li FB, Kinetics and mechanism of propachlor reductive transformation through nucleophilic substitution by dithionite. Chemosphere, 85 (2011) 1438-1443. (IF=3.499)[9] Liu CS, Wang F, Higgins CP, Shih K, Effect of temperature on oxidative transformation of perfluorooctanoic acid (PFOA) by persulfate activation in water. Separation and Purification Technology, 91 (2012) 95-100. (IF=3.065)[10]Liu CS, Shih K, Wang F, Oxidative decomposition of perfluorooctanesulfonate in water by permanganate. Separation and Purification Technology, 87 (2012) 95-100. (IF=3.065) [11]Liu CS, Zhang LJ, Feng CH, Wu CA, Li FB, Li XZ, Relationship between oxidative degradation of 2-mercaptobenzothiazole and physicochemical properties of manganese (hydro)oxides. Environmental Chemistry, 6 (2009) 83-92. (IF=3.035)[12]Dong J, Li YT, Zhang LJ, Liu CS*, Zhuang Li, Sun LN, Zhou JM, The oxidative degradation of sulfadiazine at the interface of α-MnO2 and water. Journal of Chemical Technology & Biotechnology, 84 (2009) 1848-1853. (IF=2.494)[13]Chen MJ, Liu CS*, Li FB, Zhai GS, Liu H, Liu CP, Yu WM, Correlations between Soil Geochemical Properties and Fe(III) Reduction Suggest Microbial Reducibility of Iron in Different Soils from Southern China. Catena, 123 (2014) 176-187 (IF=2.482)[14]Liu CS, Zhang LJ, Li FB, Wang Y, Gao Y, Li XZ, Cao WD, Feng CH, Dong J, Sun LN, Dependence of Sulfadiazine Oxidative Degradation on Physicochemical Properties of Manganese Dioxides. Industrial & Engineering Chemistry Research, 48 (2009) 10408-10413. (IF=2.235)[15]Liu CS, Shih K, Gao YX, Li FB, Wei L, Dechlorinating transformation of propachlor through nucleophilic substitution by dithionite on the surface of alumina. Journal of Soils and Sediments, 12 (2012) 724-733. (IF=2.107)[16]Liu CS, Wang YK, Li FB, Chen MJ, Zhai GS., Tao L, Liu CP, Influence of geochemical properties and land-use types on the microbial reduction of Fe(III) in subtropical soils. Environmental Science: Processes & Impacts, 16 (2014) 1938-1947. (IF=2.085) [17]Liu CS, Wang XQ, Li XJ, Cao WD, Yang JY, Detoxification of Arsenite through Adsorption and Oxidative Transformation on Pyrolusite. CLEAN-Soil, Air, Water, 40 (2012) 1265-1272. (IF=1.838)[18]Wei L, Li FB, Liu CS*, Liu CP, Chen MJ, Lan Q, Heterogeneous Nucleophilic Transformation of Metolachlor by Bisulfide on the Surface of Alumina. CLEAN-Soil, Air, Water, 41 (2013) 856-864. (IF=1.838)[19]Liu CS,Gao YX, Li FB, et al., Photodegradation of 2-Mercaptobenzothiazole in the iron oxide/oxalic acid/UVA system.