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童美萍 |
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1.國家11-5科技支撐項目南水北調(diào)中線工程“丹江口水源區(qū)黃姜加工新工藝關鍵技術研究” 子課題,2006BAB04A14,2006.1-2009.12, 童美萍。
2.“共存膠體及微生物膜對生物型膠體在多孔介質(zhì)中遷移行為的影響研究”, 國家自然科學基金的青年科學基金項目40802054,2009.1-2011.12, 童美萍。 3.“胞外多聚物及腐殖酸對納米材料在環(huán)境介質(zhì)中遷移行為的影響研究”, 國家自然科學基金面上項目40971181, 2010.1-2012.12,童美萍。 4.“土壤與地下水污染控制”,教育部回國留學人員科研啟動基金項目, 2008,童美萍。 5.國家11-5 水專項“湘江水環(huán)境重金屬污染整治關鍵技術研究與綜合示范項目”的子課題,2009.1-2012.12,童美萍。 6.胞外多聚物成分對生物型膠體在多孔介質(zhì)中遷移行為的作用,教育部博士學科點基 金20100001110034, 2011.1-2013.12,童美萍。 7.有機質(zhì)、表面活性劑及營養(yǎng)物質(zhì)對微生物在環(huán)境介質(zhì)中遷移行為的作用,國家自然科學基金面上基金21177002 ,2012.1-2015.12,童美萍。 |
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33 Cai, L., Tong*, M. Ma, H; Kim, H. 2013, “Co-transport of Titanium Dioxide and Fullerene Nanoparticles in Saturated Porous Media” Environmental Science and Technologyoi: 10.1021/es400256d, D
32 Shan, C. Tong*, M. 2013, “Efficient Removal of Trace Arsenite through Oxidation and Adsorption by Magnetic Nanoparticles Modified with Fe-Mn Binary Oxide”, Water Research, 47, 3411-3421.
31 Jin, Y., Dai, Z., Liu, F., Tong*, M. Hou*, Y. 2013, “Bactericidal Mechanisms of Ag2O/TNBs under both Dark and Light Conditions”, Water Research,47(5), 1837-1847.
30 Liu, F., Jin, Y., Liao, H., Cai, L., Tong*, M., Hou*, Y. 2013, “Facile self-assembly synthesis of titanate/Fe3O4 nanocomposites for the efficient removal of Pb2+ from aqueous systems”, Journal of Materials Chemistry A 1, 805-813.
29 Shen, X., Han, P., Yang, H., Kim, H. Tong*, M. 2013, “Influence of Sulfate on the Transport of Bacteria in Quartz Sand”, Colloids and Surfaces B: Biointerfaces, Doi: 10.1016/j.colsurfb.2013.05.014.
28 Jiang, X., Wang, X., Tong*, M., Kim, H. 2013, “The influence of biofilm on ZnO nanoparticles transport and retention in porous media”, Environmental Pollution 174, 38-49.
27 Su, R., Jin, Y., Tong*, M., Kim, H. 2013, “Bactericidal activity of Ag-doped multi-walled carbon nanotubes and the effects of extracellular polymeric substances and natural organic matter”, Colloids and Surfaces B: Biointerfaces 104(1), 133-139.
26 Han, P., Shen, X., Yang, H., Tong*, M. 2013, “Influence of nutrient conditions on the transport of bacteria in saturated porous media”, Colloids and Surfaces B: Biointerfaces, 102, 752-758.
25 Yang, H., Tong*, M., Kim*, H. 2012, “Influence of bentonite particles on representative gram negative and gram positive bacterial deposition in porous media”, Environmental Science and Technology 46, 11627−11634
24 Jiang, X., Tong*, M., Kim*, H. 2012, “Influence of natural organic matter on the transport and deposition of zinc oxide nanoparticles in saturated porous media”, Journal of Colloid and Interface Science 15(1), 34-43.
23 Jiang, X., Tong*. M., Lu, R., Kim. H. 2012, “Transport and deposition of ZnO nanoparticles in saturated porous media”, Colloids and Surfaces A: Physicochemical and Engineering Aspects 401, 29-37.
22 Jin, Y., Liu, F., Tong*, M., Hou*, Y. 2012, “Removal of arsenate by cetyltrimethylammonium bromide modified magnetic nanoparticles”, Journal of Hazardous Materials 227, 461-468.
21 Han, Y., Kim*, H., Tong, M*. 2012, “Characterization of stone powder sludge foams and their application to wastewater treatment: Role of Pore connectivity”, Materials Chemistry and Physics 134(1), 26-30.
20 Tong*, M., Shen, Y., Yang, H., Kim, H., 2012, “Deposition kinetics of MS2 bacteriophages on clay mineral surfaces”, Colloids and Surfaces B: Biointerfaces 92, 340-347.
19 Yang, H., Kim, H, Tong*, M, 2012, “Influence of humic acid on the transport behavior of bacteria in quartz sand”, Colloids and Surfaces B: Biointerfaces91, 122-129.
18 Tong*, M., Zhu, P., Jiang, X., Kim, H, 2011, “Influence of natural organic matter on the deposition kinetics of extracellular polymeric substances (EPS) on silica”, Colloids and Surfaces B: Biointerface 87(1), 151-158.
17 Shen, Y., Kim,H, Tong*, M., Li, Q. 2011, “Influence of solution chemistry on the deposition and detachment kinetics of RNA on silica surfaces”, Colloids and Surfaces B: Biointerfaces 82(2), 443-449.
16 Jiang, X., Tong*, M., Li, H., Yang, K., 2010, “Deposition kinetics of zinc oxide nanoparticles on natural organic matter coated silica surfaces”, Journal of Colloid and Interface Science 350(2), 427-434.
15 Tong*, M., Long, G., Jiang, X., Kim, N. 2010, “Contribution of extracellular polymeric substances on representative gram negative and gram positive bacterial deposition in porous media”, Environmental Science and Technology 44(7), 2393-2399.
14 Tong*, M., Ding, J., Shen Y., Zhu, P. 2010, “Influence of biofilm on the transport of fullerene (C60) nanoparticles in porous media”, Water Research 44(4), 1094-1103.
13 Yang*, J., Liu, W., Yuan, H., Tong, M. Gao, J. 2010, “Application of a novel backwashing process in upflow biological aerated filter”, Journal of Environmental Sciences-China, 22(3), 362-366.
12 Zhu, P., Long, G., Ni, J., Tong*, M. 2009, “Deposition kinetics of extracellular polymeric substances (EPS) on silica in monovalent and divalent Salts”,Environmental Science and Technology 43(15), 5699–5704.
11 Long, G., Zhu, P., Shen, Y., Tong*, M. 2009, “Influence of extracellular polymeric substances (EPS) on deposition kinetics of bacteria. Environmental Science and Technology 43(7), 2308-2314.
10 Johnson*,W. P, Li, X, Tong, M. 2009, “Comment on “Transport and fate of bacteria in porous media: coupled effects of chemical conditions and pore space geometry by Saeed Torkzaban et al.”, Water Resource Research 45, W09603, doi:10.1029/2008WR007389.
9 Yao, L, Ye, Z, Tong, M., Ni*, J., 2009, “Removal of Cr3+ from aqueous solution by biosorption with aerobic granules”, Journal of Hazardous Materials165(1-3), 250-255.
8 Tong, M., Ma, H., Johnson*, W. P. 2008, “Funneling of flow into grain-to-grain contacts drives colloid-colloid aggregation in the presence of an energy barrier”, Environmental Science and Technology 42 (8), 2826–2832.
7 Zhu, X., Tong, M., Shi, S., Zhao, H., Ni*. J, 2008, “Essential explanation to the strong mineralization performance of Boron-doped diamond electrodes,Environmental Science and Technology 42(13), 4914–4920.
6 Johnson*, W. P., Tong, M., Li, X. 2007, “On colloid retention in saturated porous media in the presence of energy barriers: the failure of alpha and opportunities to predict eta, Water Resource Research 43, W12S13, doi:10.1029/2006WR005770.
5 Tong, M., Johnson*, W. P. 2007, “Colloid population heterogeneity drives hyper-exponential deviation from classic filtration theory”, Environmental Science and Technology 41(2), 493-499.
4 Tong, M., Johnson*, W. P. 2007, 2006, “Excess colloid retention in porous media as a function of colloid size, fluid velocity, and grain angularity”,Environmental Science and Technology 40(24), 7725-7731.
3 Johnson*, W. P., Tong, M. 2006, “Observed and simulated fluid drag effects on colloid deposition in the presence of an energy barrier in an impinging jetsystem”, Environmental Science and Technology 40 (16), 5015-5021.
2 Tong, M., Camesano, T. A., Johnson*, W. P. 2005, “Spatial variation in deposition rate coefficients of an adhesion-deficient bacterial strain in quartz sand”,Environmental Science and Technology 39(10), 3679-3687.
1 Tong, M., Li, X., Brow, C. N., Johnson*, W. P. 2005, “Detachment-influenced transport of an adhesion-deficient bacterial strain within water-reactiveporous media, Environmental Science and Technology 39(8) 2500-2508.
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