Chemistry Reference
In-Depth Information
16. Benkova, Z.; Cordero, M. N. D. S., Molecular Dynamics Study of Water Inter-
acting with Siloxane Surface Modified by Poly(ethylene oxide) Chains.
J. Phys.
Chem. C
2011
,
115
, 18740-18751.
17. Monticelli, O.; Fina, A.; Cozza, E. S.; Prato, M.; Bruzzo, V., POSS Vapor Phase
Grafting: A Novel Method to Modify Polymer Films.
J. Mater. Chem
.
2011
,
21
,
18049-18054.
18. Benkova, Z.; Szefczyk, B.; Cordeiro, M. N. D. S., Molecular Dynamics Study of
Hydrated Poly(ethylene oxide) Chains Grafted on Siloxane Surface.
Macromol-
ecules
2011
,
44
, 3639-3648.
19. Krumpfer, J. W.; McCarthy, T. J., Rediscovering Silicones; “Unreactive”
Silicones React with Inorganic Surfaces.
Langmuir
2011
,
27
,
11514-11519.
20. Lin, G.; Zhang, X.; Kumar, S. R.; Mark, J. E., Improved Hydrophilicity from
Poly(ethylene glycol) in Amphilic Conetworks with Poly(dimethylsiloxane).
Silicon
2009
,
1
, 173-181.
21. Zhang, X.; Lin, G.; Kumar, S. R.; Mark, J. E., Hydrogels Prepared from Polysi-
loxane Chains by End Linking Them with Trifunctional Silanes Containing
Hydrophilic Groups.
Polymer
2009
,
50
, 5414-5421.
22. Togulu, S.; Klok, H.-A., Surface Modification of Polydimethylsiloxane Sub-
strates with Nonfouling Poly(ethylene glycol)methacrylate Brushes.
Macromol.
Symp
.
2009
,
279
, 103-109.
23. Kuo, P.-L.; Hou, S.-S.; Teng, C.-K.; Liang, W. J., Function and Performance of
Silicone Copolymer. (VI). Synthesis and Novel Solution Behavior of Water-
Soluble Polysiloxanes with Different Hydrophobicities.
Coll. Polym. Sci
.
2001
,
279
, 286-291.
24. Dvornic, P. R.; Leuze-Jallouli, A. M. D.; Owen, M. J.; Perz, S. V., Radially Lay-
ered Poly(Amidoamine-organosilicon) Copolymeric Dedrimers and Their Net-
works Containing Controlled Hydrophilic and Hydrophobic Nanoscopic
Domains. In
Silicones and Silicone-Modified Materials
, Clarson, S. J.; Fitzgerald,
J. J.; Owen, M. J.; Smith, S. D., Eds. American Chemical Society: Washington,
DC, 2000; Vol. 729, pp 241-269.
25. Wong, T.-S.; Kang, S. H.; Tang, S. K. Y.; Smythe, E. J.; Hatton, B. D.; Grinthal,
A.; Alzenberg, J., Bioinspired Self-Repairing Slippery Surfaces with Pressure-
Stable Omniphobicity.
Nature
2011
,
477
, 443-447.
26. Dufour, R.; Harnois, M.; Coffinier, V.; Thomy, V.; Boukherroub, R.; Senez, V.,
Engineering Sticky Superomniphobic Surfaces on Transparent and Flexible
PDMS Substrate.
Langmuir
2010
,
26
, 17242-17247.
27. Xia, F.; Ge, H.; Hou, Y.; Sun, T.; Chen, L.; Zhang, G.; Jiang, L., Multiresponsive
Surfaces Change Between Superhydrophilicity and Superhydrophobicity.
A dv.
Mater
.
2007
,
19
, 2520-2524.
28. Drelich, J.; Chibowski, E., Superhydrophilic and Superwetting Surfaces: Defi-
nition and Mechanism of Control.
Langmuir
2010
,
26
, 18621-18623.
29. Jin, M.; Feng, X.; Xi, J.; Zhai, J.; Cho, K.; Feng, L.; Jiang, L., Super-Hydropho-
bic PDMS Surface with Ultra-Low Adhesive Force.
Macromol. Rapid Commun
.
2005
,
26
, 1805-1809.
30. Crowe, J. A.; Efimenko, K.; Genzer, J., Manipulating Siloxane Surfaces: Ob-
taining the Desired Surface Function via Engineering Design. In
Science and
Technology of Silicones and Silicone-Modified Materials
, Clarson, S. J.; Fitzgerald,
J. J.; Owen, M. J.; Smith, S. D.; Van Dyke, M. E., Eds. American Chemical Soci-
ety: Washington, DC, 2007; Vol. 964, pp 222-255.
