中文

Journal Publications

[1]Arsenic biotransformation genes and As transportation in soil-rice system affected by iron-oxidizing strain (Ochrobactrum sp.).Environmental Pollution, 2022, 314: 120311.
[2]The effects of biochar as the electron shuttle on the ferrihydrite reduction and related arsenic (As) fate.Journal of Hazardous Materials, 2020, 390: 121391.
[3]铁/锰氧化菌诱导土壤重金属生物成矿研究进展.土壤学报, 2023
[4]植物生物反应器优化策略与最新应用研究进展.中国生物工程杂志, 2023
[5]土壤-水稻系统砷的生物地球化学过程研究进展.农业环境科学学报, 2019, 38 (7) : 1429-1439.
[6]铁循环微生物对环境中重金属的影响研究进展.环境化学, 2021, 40 (3) : 834-850.
[7]生物炭对含Ａｓ（Ⅲ）水铁矿还原过程中砷形态及矿物转化的影响.环境科学学报, 2021, 41 (9) : 3497-3512.
[8]Microbial driven iron reduction affects arsenic transformation and transportation in soil-rice system.Environmental Pollution, 2020, 260: 114010.
[9]Remediation of arsenic-contaminated paddy field by a new iron oxidizing strain (Ochrobactrum sp.) and iron-modified biochar.Journal of Environmental Sciences, 2021, 115: 411–421.
[10]Arsenic biomineralization by iron oxidizing strain (Ochrobactrum sp.) isolated from a paddy soil in Hunan, China.Land Degradation & Development, 2021, 32: 2082–2093.
[11]Shengguo Xue, Ziyan Qian, Jun Lin, Ziyu Liu, Wenhui An, Chuan Wu.The effects of biochar as the electron shuttle on the ferrihydrite reduction and related arsenic (As) fate, https://doi.org/10.1016/j.jhazmat.2019.121391[J].Journal of Hazardous Materials, 2020, 390: 121391.
[12]Manikandan Rajendran, Xingxing Jiang, Waichin Li, Shengguo Xue, Lizheng Shi, Chuan Wu.Effect of sulfur-iron modified biochar on the available cadmium and bacterial community structure in contaminated soils[J].Science of the Total Environment, 2019, 647: 1158–1168.
[13]ZiYan Qian, Xingxing Jiang, Liu Huang, Waichin Li, Shengguo Xue, Mengqian Cui, Chuan Wu.Remediation of arsenic-contaminated paddy soil by iron-modified biochar，https://doi.org/10.1007/s11356-018-2268-8[J].Environmental Science and Pollution Research, 2018
[14]Shengguo Xue*, Huikang Chen, Ruiyang Xiao, Anqin Fu, Waichin Li, Chuan Wu*, Wenhui An, Qi Zou.Red mud modified biochar reduces soil arsenic availability and？changes bacterial composition.Environmental Chemistry Letters, 2018, 16: 615–622.
[15]Wenfen, William Hartley, Chuan Wu*, Shengguo Xue*, Yuanzhi Li, Dan Zheng, Yongjin Xiang, Jingtao Hou.Morphology-dependent enhancement of arsenite oxidation to arsenate on birnessite-type manganese oxide[J].Chemical Engineering Journal, 327: 235–243.
[16]Chuxuan Li., Chuan Wu*, Longbin Huang, William Hartley, Shengguo Xue*, Tao Tian, Xiangfeng Kong.Development of alkaline electrochemical characteristics demonstrates soil formation in bauxite residue undergoing natural rehabilitation[J].Land Degradation & Development, 2018, 29: 58-67.
[17]Mengqian Cu, William Hartley, Weisong Pan, Yanyan Qin, Hui Wu, Chuan Wu*, Lizheng Shi, Shengguo Xue.Cadmium, lead, and arsenic contamination in paddy soils of a mining area and their exposure effects on human HEPG2 and keratinocyte cell-lines[J].Environmental Research, 2017, 156: 23–30.
[18]William Hartley, Anna King Chuen Chung, Hui Zhou, Zhaohong Su, Qiming Wang, Chuan Wu*, Weisong Pan.Effect of wetland plants and bacterial inoculation on dissipation of phenanthrene[J].International Journal of Phytoremediation, 2017, 19 (10) : 870-876.
[19]Ming-Hung Wong, Mengqian Cui, William Hartley, Li-Zheng Shi, Sheng-Guo Xue*, Liu Huang, Chuan Wu.Arsenic sorption by red mud-modified biochar produced from rice straw[J].Environmental Science and Pollution Research, 2017: DOI:10.1007/s11356-0.
[20]Wenfen, William Hartley, Chuan Wu*, Shengguo Xue*, Yuanzhi Li, Dan Zheng, Yongjin Xiang, Jingtao Hou.Morphology-dependent enhancement of arsenite oxidation to arsenate on birnessite-type manganese oxide[J].Chemical Engineering Journal, 2017, 327: 235–243.

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