Environmental Engineering Reference
In-Depth Information
36. Luo, M.L., Zhao, J.Q., Tang, W., Pu, C.S. Hydrophilic modiication of poly(ether sulfone) ultra-
iltration membrane surface by self-assembly of TiO
2
nanoparticles.
Applied Surface Science
,
2005, 249(1): 76-84.
37. Feng, X., Jiang, L. Design and creation of superwetting/antiwetting surfaces.
Advanced
Materials
, 2006, 18(23): 3063-3078.
38. Feng, L., Song, Y., Zhai, J., Liu, B., Xu, J., Jiang, L., Zhu, D. Creation of a superhydrophobic sur-
face from an amphiphilic polymer.
Angewandte Chemie
, 2003, 115(7): 824-826.
39. Han, J.T., Xu, X., Cho, K. Diverse access to artiicial superhydrophobic surfaces using block
copolymers.
Langmuir
, 2005, 21(15): 6662−6665.
40. Wang, S.T., Feng, L., Liu, H., Sun, T.L., Zhang, X., Jiang, L., Zhu, D.B. Manipulation of sur-
face wettability between superhydrophobicity and superhydrophilicity on copper ilms.
ChemPhysChem
, 2005, 6(8): 1475-1478.
41. Wang, C., Yao, T., Wu, J., Ma, C., Fan, Z., Wang, Z., Cheng, Y., Lin, Q., Yang, B. Facile approach
in fabricating superhydrophobic and superoleophilic surface for water and oil mixture separa-
tion.
ACS Applied Materials Interfaces
, 2009, 1(11): 2613-2617.
42. Zhang, L., Zhang, Z., Wang, P. Smart surfaces with switchable superoleophilicity and super-
oleophobicity in aqueous media: Toward controllable oil/water separation.
NPG Asia Materials
,
2012, 4(2): e8.
43. Maguire-Boyle, S.J., Barron, A.R. A new functionalization strategy for oil/water separation
membranes.
Journal of Membrane Science
, 2011, 382(1): 107-115.
44. Kota, A.K., Kwon, G., Choi, W., Mabry, J.M., Tuteja, A. Hygro-responsive membranes for effec-
tive oil-water separation.
Nature Communications
, 2012, 3: 1025.
45. Feng, L., Zhang, Z., Mai, Z., Ma, Y., Liu, B., Jiang, L., Zhu, D. A super hydrophobic and super-
oleophilic coating mesh ilm for the separation of oil and water.
Angewandte Chemie International
Edition
, 2004, 43(15): 2012-2014.
46. Xue, Z., Wang, S., Lin, L., Chen, L., Liu, M., Feng, L., Jiang, L. A novel superhydrophilic and
underwater superoleophobic hydrogel-coated mesh for oil/water separation.
Advanced
Materials
, 2001, 23(37): 4270-4273.
47. Yoon, K., Hsiao, B.S., Chu, B. Functional nanoibers for environmental applications.
Journal of
Materials Chemistry
, 2008, 18(44): 5326-5334.
48. Daiminger, U., Nitsch, W., Plucinski, P., Hoffmann, S. Novel techniques for oil/water separa-
tion.
Journal of Membrane Science
, 1995, 99(2): 197-203.
49. Langdon, W.M., Naik, P.P., Wasan, D.T. Separation of oil dispersions from water by ibrous bed
coalescence.
Environmental Science Technology
, 1972, 6(10): 905-910.
50. Davies, G.A., Jeffreys, G.V. Coalescence of droplets in packings: Factors affecting the separation
of droplet dispersions.
Filtration Separation
, 1969, 6(4): 349-354.
51. Shin, C., Chase, G.G. Water-in-oil coalescence in micro-nanoiber composite ilters.
AIChE
Journal
, 2004, 50(2): 343-350.
52. Wang, X., Chen, X., Yoon, K., Fang, D., Hsiao, B.S., Chu, B. High lux iltration medium based
on nanoibrous substrate with hydrophilic nanocomposite coating.
Environmental Science and
Technology
, 2005, 39(19): 7684-7691.
53. Ma, H., Yoon, K., Rong, L., Mao, Y., Mo, Z., Fang, D., Hollider, Z., Gaiteri, J., Hsiao, B.S., Chu, B.
High-lux thin-ilm nanoibrous composite ultrailtration membranes containing cellulose bar-
rier layer.
Journal of Materials Chemistry
, 2010, 20(22): 4692-4704.
54. Arbatan, T., Fang, X., Shen, W. Superhydrophobic and oleophilic calcium carbonate powder
as a selective oil sorbent with potential use in oil spill clean-ups.
Chemical Engineering Journal
,
2011, 166(2): 787-791.
55. Alther, G.R. Organically modiied clay removes oil from water.
Waste Management
, 1995, 15(8):
623-628.
56. Yariv, S., Cross, H. Eds.
Organo-Clay Complexes and Interactions
. CRC Press, Boca Raton, FL, 2001.
57. Alper, H. Removal of oils and organic compounds from water and air with MYCELX HRM
(hydrocarbon removal matrix) technology.
Federal Facilities Environmental Journal
, 2003, 14(3):
79-101.
