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(1)J, Ai, W. Yin*, Hans Christian B. Hansen,Fast Dechlorination of Chlorinated Ethylenes by Green Rust in the Presence of Bone Char, Environmental Science & Technology Letters, 2019, 6 (3), 191–196.
(2)B. Li, W. Yin, M. Xu, X. Tan, P. Li, J. Gu, P. Chiang, J. Wu*, Facile modification of activated carbon with highly dispersed nano-sized α-Fe2O3 for enhanced removal of hexavalent chromium from aqueous solutions, Chemosphere, 2019, 224, 220-227.
(3)Y. Wu, H. Lin, W. Yin, S. Shao, S. Lv*, Y. Hu(*), Water Quality and Microbial Community Changes in an Urban River after Micro-Nano Bubble Technology in Situ Treatment, Water, 2019, 11(66), 1-14.
(4)M. Su, Y. Fang, B. Li, W. Yin*, J. Gu, H. Liang, P. Li, J. Wu*, Enhanced hexavalent chromium removal by activated carbon modified with micro-sized goethite using a facile impregnation method, Science of The Total Environment 647 (2019), 47-56.
(5)W. Yin,J. Ai ,L.Z. Huang*,D.J. Tobler,H.B. Hansen, A Silicate/Glycine Switch To Control the Reactivity of Layered Iron(II)-Iron(III) Hydroxides for Dechlorination of Carbon Tetrachloride,Environmental Science & Technology 52(14) (2018) 7876-7883.
(6)L. Z. Huang, Z. Yin, N. G. Cooper, W. Yin *, E. T. Bjerglund, B. W. Strobel, & H. C. B. Hansen, Copper-mediated reductive dechlorination by green rust intercalated with dodecanoate. Journal of Hazardous Materials 345 (2018) 18-26.
(7)Y. Chen, S. Gao, Z. Liu, S. Shao, W. Yin, Z. Fang, L-Z. Huang,Prolonged persulfate activation by UV irradiation of green rust for the degradation of organic pollutants.Environmental Chemistry Letters, (2018) 1-5.
(8)W. Yin*, B.W. Strobel, H.C. B. Hansen, Amino Acid-Assisted Dehalogenation of Carbon Tetrachloride by Green Rust: Inhibition of Chloroform Production, Environmental Science & Technology 51(6) (2017) 3445-3452 .
(9)J. Zhong, W. Yin *, Y. Li, P. Li, J. Wu*, G. Jiang, & H. Liang, (2017).Column study of enhanced Cr (VI) removal and longevity by coupled abiotic and biotic processes using Fe0and mixed anaerobic culture. Water Research 122(2017)536-544.
(10)W. Yin *, L. Huang, E.B. Pedersen, C. Frandsen, H.C.B. Hansen, Glycine buffered synthesis of layered iron (II)-iron (III) hydroxides (green rusts), Journal of colloid and interface science 497 (2017) 429-438.
(11)W. Yin, Y. Li, J. Wu, G. Chen, G. Jiang, P. Li, J. Gu, H. Liang, C. Liu, Enhanced Cr (VI) removal from groundwater by Fe0-H2O system with bio-amended iron corrosion, Journal of Hazardous Materials (2017).
(12)W. Yin, J. Wu, W. Huang, Y. Li, G. Jiang, The effects of flow rate and concentration on nitrobenzene removal in abiotic and biotic zero-valent iron columns, Science of the Total Environment 560 (2016) 12-18.
(13)W. Yin, J. Wu, W. Huang, C. Wei, Enhanced nitrobenzene removal and column longevity by coupled abiotic and biotic processes in zero-valent iron column, Chemical Engineering Journal259 (2015) 417-423.
(14)J. Wu(#), W. Yin (#), J. Gu, P Li, X. Wang, B. Yang, A biotic Fe0–H2O system for nitrobenzene removal from groundwater, Chemical Engineering Journal 226(2013), 14-21.
(15)W. Yin, J. Wu, P. Li, G. Lin, X. Wang, B Zhu, B Yang, Reductive transformation of pentachloronitrobenzene by zero-valent iron and mixed anaerobic culture, Chemical engineering journal 210 (2012) 309-315.
(16)W. Yin, J. Wu, P. Li, X. Wang, N. Zhu, P. Wu, B. Yang, Experimental study of zero-valent iron induced nitrobenzene reduction in groundwater: the effects of pH, iron dosage, oxygen and common dissolved anions, Chemical Engineering Journal 184(2012) 198-204.
(17)Y. Fang, W. Yin, Y. Jiang, H. Ge, P. Li, J. Wu*, Depth treatment of coal-chemical engineering wastewater by a cost-effective sequential heterogeneous Fenton and biodegradation process. Environmental Science and Pollution Research, (2018) 1-9.
(18)J. Wu, G. Lin, P. Li, W. Yin, X. Wang, B.Yang,Heterogeneous Fenton-like degradation of an azo dye reactive brilliant orange by the combination of activated carbon–FeOOH catalyst and H2O2,Water Science and Technology 67 (2012), 572-578 .
(19)D. Li, J. Zhu, J. Wu, W. Yin, H. Liang, G. Lin, Development of an activated carbon‐supported zero‐valent iron catalyst (AC‐Fe0) for enhancing degradation of reactive brilliant orange and reducing iron sludge production,Environmental Progress & Sustainable Energy 35 (2016), 949-956.
(20)J. Wu, G. Chen, J.Gu, W. Yin, M. Lu, P. Li, B. Yang, Effects of hydraulic retention time and nitrobenzene concentration on the performance of sequential upflow anaerobic filter and air lift reactors in treating nitrobenzene-containing wastewater, Environmental Science and Pollution Research 21 (2014), 12800-12810.