- [1]Xiao-lu Fan, Jin-lan Xia*, Duo-rui Zhang , Zhen-yuan Nie, Yun-peng Liu, Li-juan Zhang, Da-yi Zhang. Highly-efficient and sequential recovery of rare earth elements, alumina and silica from coal fly ash via a novel recyclable ZnO sinter method. Journal of Hazardous Materials 437 (2022) 129308
- [2]Zheng Xing Fu , Xia Jin Lan , Nie Zhen Yuan. S site doped-pyrite by single atom for efficiently catalyzing N2 electrochemical reduction[J]. Chemical Engineering Journal, 2022, 442:136350-
- [3]Zheng, Xing-fu; Nie, Zhen-yuan; Jiang, Qian; Yao, Xin; Chen, Jian-hua; Liu, Hong-chang; Xia, Jin-lan*. The mechanism by which FeS2 promotes the bioleaching of CuFeS2: An electrochemical and DFT study. Minerals Engineering, 2021, 173: 107233.
- [4]Yu-hang Zhou, Can Wang, Hong-chang Liu*, Zhen Xue, Zhen-yuan Nie, Yue Liu, Jiao-li Wan, Yu Yang, Wen-sheng Shu and Jin-lan Xia*. Correlation between Fe/S/As speciation transformation and depth distribution of Acidithiobacillus ferrooxidans and Acidiphilium acidophilum in simulated acidic water column. Frontiers in Microbiology, 2022, 12: 819804
- [5]Duo-Rui Zhang, Hong-Rui Chen, Xiao-Juan Zhao, Jin-Lan Xia*, Zhen-yuan Nie, Rui-yong Zhang, Wen-Sheng Shu, Pakostova Eva. Fe(II) bio-oxidation mediates red mud transformations to form Fe(III)/Al (hydr)oxide adsorbent for efficient As(V) removal under acidic conditions. Chemical Engineering Journal 439 (2022) 135753.
- [6]Can Wang, Jin-Lan Xia, Hong-Chang Liu* , Yu-Hang Zhou, Zhen-Yuan Nie, Lu Chen and Wen-Sheng Shu. Enhancement mechanism of stibnite dissolution mediated by Acidithiobacillus ferrooxidans under extremely acidic condition. Int. J. Mol. Sci. 2022, 23, 3580.
- [7]HongchangLiu, PengYuan, DongLiu?Weiwei?Zhang, Qian?Tian, Hongling?Bu, Yanfu?Wei, Jinlan?Xia, Yinchu?Wang, Junming?Zhou. Insight into cyanobacterial preservation in shallow marine environments from experimental simulation of cyanobacteria-clay co-aggregation. Chemical Geology, 577(2021) 120285
- [8]Huai-dan Zhang, Ya-long Ma, Yu-hang Zhou, Hong-chang Liu*, Zhen-yuan Nie, Xuan Pan, Xiao-lu Fan, Jin-lan Xia*. The differential inhibitive effects and fates of As(III) and As(V) mediated by?Sulfobacillus thermosulfidooxidans?grown on S0, Fe2+?and FeS2. Ecotoxicology and Environmental Safety 222 (2021) 112502.
- [9]Duo-rui Zhang, Hong-rui Chen, Jin-lan Xia*, Zhen-yuan Nie, Rui-yong Zhang, Axel Schippers, Wen-sheng Shu, Li-xiong Qian. Red mud regulates arsenic fate at acidic pH via regulating arsenopyrite bio-oxidation and S, Fe, Al, Si speciation transformation. Water Research 203 (2021) 117539
- [10]Yu Deng, Duo-rui Zhang, Jin-lan Xia*, Zhen-yuan Nie, Hong-chang Liu, Na Wang, Zhen Xue. Enhancement of arsenopyrite bioleaching by different Fe(III) compounds through changing composition and structure of passivation laye. 2020; 9(6):12364-12377.
- [11]Jinlan Xia*, Hongchang Liu, Zhenyuan Nie, Xiaolu Fan, Duorui Zhang, Xingfu Zheng, Lizhu Liu, Xuan Pan and Yuhang Zhou.Taking insights into phenomics of microbe-mineral interaction in bioleaching and acid mine drainage: Concepts and methodology. Science of the Total Environment, 729 (2020) 139005
- [12]陈红瑞,张多瑞,聂珍媛*,郑雷,张丽丽,杨洪英,夏金兰.基于光谱分析的砷黄铁矿生物浸出过程中铁/砷/硫形态转化研究.光谱学与光谱分析,2020,40(3):934-940
- [13]Duo-rui Zhang , Hong-rui Chen , Zhen-yuan Nie , Jin-lan Xia* , Er-ping Li , Xiao-lu Fan, Lei Zheng. Extraction of Al and rare earths (Ce, Gd, Sc, Y) from red mud by aerobic and anaerobic bi-stage bioleaching. Chemical Engineering Journal 401 (2020) 125914
- [14]Xing-fu Zheng, Si-ting Cao, Zhen-yuan Nie , Jian-hua Chen, Wei-bo Ling, Li-zhu Liu, Xuan Pan, Hong-ying Yang, Jin-lan Xia*. Impact of mechanical activation on bioleaching of pyrite: A DFT study.Minerals Engineering 148.
- [15]Zhenyuan Nie, Na Wang, Xu Xia, Jinlan Xia*, Hongchang Liu, Yuhang Zhou,Yu Deng.Biogenic FeS promotes dechlorination and thus de cytotoxity of trichloroethylene. Bioprocess and Biosystems Engineering, 2020, https://doi.org/10.1007/s00449-020-02369-7
- [16]Xuejie Jin, Sanqiang Gong, Zishuo Chen, Jinlan Xia*, Wenzhou Xiang*. Potential microalgal strains for converting flue gas CO2 into biomass. Journal of Applied Phycology, 2020, https://doi.org/10.1007/s10811-020-02147-8
- [17]Si-Ting Cao,, Xing‐Fu Zheng, Zhen‐Yuan Nie, Jin‐Lan Xia, Yu‐Hang Zhou, Hong‐Chang Liu, Jian‐Hua Chen, Hong‐Ying Yang.Si-Ting Cao, Xing‐Fu Zheng, Zhen‐Yuan Nie*, Yu‐Hang Zhou, Hong‐Chang Liu, Jian‐Hua Chen, Hong‐Ying Yang and Jin‐Lan Xia*. Mechanical Activation on Bioleaching of Chalcopyrite: A New Insight. Minerals 2020, 10, 788; doi:10.3390/min10090788[J].Minerals, 10
- [18]Duo-rui Zhang , Hong-rui Chen, Jin-lan Xia, Zhen-yuan Nie , Xiao-lu Fan, Hong-cahng Liu, Lei Zheng, Li-juan Zhang, Hong-ying Yang. Humic acid promotes arsenopyrite bio-oxidation and arsenic immobilization. Journal of Hazardous Materials, 2020, 384[J].Journal of Hazardous Materials, 2018, 384 (121359)
- [19]Xiao-lu Fan, Shao-qing Lv, Jin-lan Xia*, Zhen-yuan Nie, Duo-rui Zhang, Xuan Pan, Li-zhu Liu, Wen Wen, Lei Zheng, Yi-dong Zhao. Extraction of Al and Ce from coal fly ash by biogenic Fe3+ and H2SO4. Chemical Engineering Journal, 2019, 370: 1407-1424[J]
- [20]Yi-Dong Zh, Yu Denga, Hong-Chang Liua, Hong-Rui Chena, Zhen-Yuan Niea, Jin-Lan Xiaa*, Duo-Rui Zhanga.Duo-Rui Zhanga, Jin-Lan Xiaa*, Zhen-Yuan Niea, Hong-Rui Chena, Hong-Chang Liua, Yu Denga, Yi-Dong Zhaob, Li-Li Zhangc, Wen Wenc, Hong-Ying Yangd. Mechanism by which ferric iron promotes the bioleaching of arsenopyrite by the moderate thermophile Sulfobacillus thermosulfidooxidans. Process Biochemistry, 2019, 81:11-21[J].Process Biochemistry, 81: 11-21.