| [1] | UYSAL M, AR I. Removal of Cr(Ⅵ) from industrial wastewaters by adsorption Part Ⅰ:Determination of optimum conditions[J]. Journal of Hazardous Materials, 2007, 149(2):482-491. |
| [2] | VOITKUN V, ZHITKOVICH A, COSTA M. Cr(Ⅲ)-mediated crosslinks of glutathione or amino acids to the DNA phosphate backbone are mutagenic in human cells[J]. Nucleic Acids Research, 1998, 26(8):2024-2030. |
| [3] | COSTA M. Toxicity and carcinogenicity of Cr(Ⅵ) in animal models and humans[J]. Critical Reviews in Toxicology, 1997, 27(5):431-442. |
| [4] | SHARMA Y C. Cr(Ⅵ) removal from industrial effluents by adsorption on an indigenous low-cost material[J]. Colloids & Surfaces A Physicochemical & Engineering Aspects, 2003, 215(1):155-162. |
| [5] | BHATTACHARYA A K, NAIYA T K, MANDAL S N, et al. Adsorption, kinetics and equilibrium studies on removal of Cr(Ⅵ) from aqueous solutions using different low-cost adsorbents[J]. Chemical Engineering Journal, 2008, 137(3):529-541. |
| [6] | ALOWITZ M J, SCHERER M M. Kinetics of nitrate, nitrite, and Cr(Ⅵ) reduction by iron metal.[J]. Environmental Science & Technology, 2002, 36(3):299-306. |
| [7] | BARRERA C E. A review of chemical, electrochemical and biological methods for aqueous Cr(Ⅵ) reduction.[J]. Journal of Hazardous Materials, 2012, 223-224(2):1-12. |
| [8] | 郑超, 彭辉婷, 杨杰文,等. 纳米氧化铁催化柠檬酸还原Cr(Ⅵ)及其土壤环境意义[J]. 环境化学, 2016, 35(11):2370-2376. ZHENG C, PENG H, YANG J W, et al. Characterization of nano iron oxide catalyzed Cr (Ⅵ) reduction by citric acid and its significance to soil environments[J]. Environmental Chemistry, 2016, 35(11):23702376(in Chinese). |
| [9] | 周红艳, 李志, 田晓芳,等. 高岭石表面吸附态Mn(Ⅱ)对有机酸还原Cr(Ⅵ)的影响[J]. 南京农业大学学报, 2009, 32(1):131-135. ZHOU H Y, LI Z, TIAN X F, et al. The influence of Mn(Ⅱ) adsorbed by kaolinite on the reduction of Cr(Ⅵ) by organic acids[J]. Journal of Naming Agricultural University, 2009,32(1):131-135(in Chinese). |
| [10] | SUN J, MAO JD, GONG H, et al. Fe(Ⅲ) photocatalytic reduction of Cr(Ⅵ) by low-molecular-weight organic acids with alpha-OH.[J]. Journal of Hazardous Materials, 2009, 168(2-3):1569-1574. |
| [11] | 李乐卓, 王三反, 常军霞,等. 中和共沉淀-铁氧体法处理含镍、铬废水的实验研究[J]. 环境污染与防治, 2015, 37(1):31-34. LI L Z, WANG S F, CHANG J X, et al. Study on the treatment of containing nickel and chromium wastewater by neutral coprecipitation/ferrite process[J]. Environmental Pollution and Control, 2015, 37(1):31-34(in Chinese). |
| [12] | 李红玑, 李宁, 吴喜勇, 等. 凹凸棒土合成方钠石分子筛及对铬的吸附效果研究[J]. 当代化工, 2015, 44(9):2124-2127. LI HJ, LI N, WU Y X, et al. Research on synthesis of sodalite from attapulgite and its adsorption effect for chromium[J]. Contemorary Chemical Industry, 2015, 44(9):2124-2127(in Chinese). |
| [13] | 刘静静. 吸附法去除饮用水中六价铬实验研究[D]. 成都:西南交通大学, 2015. LIU J J. Study on the remediation of Cr(Ⅵ) by adsorption in the drinking water[D]. Chengdu:Southwest Jiaotong University, 2015(in Chinese). |
| [14] | 孔泳, 王志良, 倪珺华,等. 凹凸棒土应用于重金属离子吸附剂的研究[J]. 分析测试学报, 2010, 29(12):1224-1227. KONG Y, WANG Z L, NI J H, et al, Application of attapulgite to adsorption of heavy metal ions (J). Journal of Instrumental Analysis, 2010, 29(12), 1224-1227(in Chinese). |
| [15] | |
| [16] | BROOKSHAW D R, COKER V S, LLOYD J R, et al. Redox interactions between Cr(Ⅵ) and Fe(Ⅱ) in bioreduced biotite and chlorite.[J]. Environmental Science & Technology, 2014, 48(19):11337-11342. |
| [17] | SARKAR B, NAIDU R, KRISHNAMURTI G S, et al. Manganese(Ⅱ)-catalyzed and clay-minerals-mediated reduction of chromium(Ⅵ) by citrate.[J]. Environmental Science & Technology, 2013, 47(23):13629-13636. |