Chemistry Reference
In-Depth Information
104. Zhang, J.; Liu, G.; Jonas, J., Effects of Confinement on the Glass Transition
Temperature of Molecular Liquids.
J. Phys. Chem
.
1992
,
96
, 3478-3480.
105. Ellison, C. J.; Torkelson, J. M., The Distribution of Glass-Transition Tempera-
tures in Nanoscopically Confined Glass Formers.
Nat. Mater.
2003
,
2
,
695-700.
106. Andre, P.; Folk, S. L.; Adam, M.; Rubinstein, M.; DeSimone, J. M., Light Scat-
tering Study of Polydimethyl Siloxane in Liquid and Supercritical Carbon Di-
oxide.
J. Phys. Chem. A
2004
,
108
, 9901-9907.
107. Flory, P. J.,
Principles of Polymer Chemistry
. Cornell University Press: Ithaca NY,
1953.
108. Schaefer, D. W.; Mark, J. E.; McCarthy, D. W.; Jian, L.; Sun, C.-C.; Farago, B.,
Structure of Microphase-Separated Silica/Siloxane Molecular Composites. In
Polymer-Based Molecular Composites
, Schaefer, D. W.; Mark, J. E., Eds. Materi-
als Research Society: Pittsburgh, PA, 1990; Vol. 171, pp 57-63.
109. Schaefer, D. W.; Chen, C., Structure Optimization in Colloidal Reinforcing
Fillers: Precipitated Silica.
Rubber Chem. Technol
.
2002
,
75
, 773-793.
110. Schneider, G. J.; Goritz, D., Strain Induced Anisotropies in Silica Polydimeth-
ylsiloxane Composites.
J. Chem. Phys
.
2010
,
133
, 024903.
111. Yun, S. I.; Melnichenko, Y. B.; Wignall, G. D., Small-Angle Scattering from
Symmetric Blends of Poly(dimethylsiloxane) and Poly(ethylmethylsiloxane).
Polymer
2004
,
45
, 7969-7977.
112. Roots, J. E.; Ma, K. T.; Higgins, J. S.; Arrighi, V., Quasielastic Neutron Scatter-
ing Study of Poly(dimethylsiloxane) at High Pressure.
Phys. Chem. Chem. Phys
.
1999
,
1
, 137-141.
113. Edwards, C. J. C.; Richards, R. W.; Stepto, R. F. T., Monte Carlo Calculations of
Particle Scattering Functions of Polymer Chains.
Macromolecules
1984
,
17
,
2147-2153.
114. Sinha, M. Probing Polymer Networks Using Pulse Propagation and Brillouin
Light Scattering Techniques. Ph.D. Physics, University of Cincinnati, Cincin-
nati, 2000.
115. Sinha, M.; Mark, J. E.; Jackson, H. E.; Walton, D., A Brillouin Scattering Study
of End-Linked Poly(dimethylsiloxane) Networks.
J. Chem. Phys
.
2002
,
117
,
2968-2974.
116. Stevens, L. L.; Orler, E. B.; Dattelbaum, D. M., Brillouin-Scattering Determi-
nation of the Acoustic Properties and Their Pressure Dependence for Three
Polymeric Elastomers.
J. Chem. Phys
.
2007
,
127
, 104906.
117. Gent, A. N.; Marteny, P., The Effect of Strain Upon the Velocity of Sound and
the Velocity of Free Retraction for Natural Rubber.
J. Appl. Phys
.
1982
,
53
,
6069-6075.
118. Sinha, M.; Erman, B.; Mark, J. E.; Ridgway, T. H.; Jackson, H. E., Pulse Propa-
gation in Poly(dimethylsiloxane) Networks.
Macromolecules
2003
,
36
,
6127-6134.
119. Juliac, E.; Arman, J.; Harran, D., An Ultrasonic Method to Study the Interdif-
fusion Phenomenon Between Two Polydimethylsiloxanes.
Eur. Polym. J
.
2002
,
38
, 2161-2169.
120. Durig, J. R.; Flanagan, M. J.; Kalasinsky, V. F., The Determination of the Po-
tential Function Governing Low Frequency Bending Mode in Disiloxane.
J.
Chem. Phys
.
1977
,
66
, 2775-2785.
121. Oberhammer, H.; Boggs, J. E., Importance of (p-d)π Bonding in the Siloxane
Bond.
J. Am. Chem. Soc
.
1980
,
102
, 7241-7244.
