Abstract
In addition to their applications as coupling agents in mineral-filled organic resin composites, the various organofunctional silanes are arousing much interest in other areas of surface modification. A symposium on silylated surfaces, held at the Midland Macromolecular Institute in 1978, was devoted to some of these “other” applications of silylated surfaces.1 Many additional properties of silylated surfaces present obvious possibilities, but have not been studied enough for practical application.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
D. E. Leyden and W. T. Collins, Eds. Silylated Surfaces, Gordon and Breach, New York (1980).
O. K. Johannson and J. J. Torok Proc. Inst. Radio Engrs. 34, 296 (1946).
E. Sacher, J. K. Sapieha, H. P. Schrieber, N. R. Wertheimer, and N. S. McIntyre. Silanes, Surfaces, and Interfaces, Vol. I, pp. 189–202, D. E. Leyden, Ed., Gordon and Breach, London (1986).
T. J. Nestrick, L. L. Lamparski, and R. H. Stehl Anal Chem. 51, 2273 (1979).
F. W. Abel, F. H. Pollard, P. C. Uden, and G. Nickless, J. Chromatogr. 22, 23 (1966).
P. Legally. U. S. Patent 3,108,920 (to Brockway Glass) (1963).
G. R. Bogart, D. E. Leyden, T. M. Wade, W. Schaefer, and P. W. Carr Chemically Modified Oxide Surface Symposium. J. Chromatogr. 483, 209 (1989).
C. Pidgeon, and U. V. Venkataram Analyt. Biochem. 176(1), 36 (1989).
L. E. Myers Soil and Water Conserv. J. 22(3), 95–97 (1967).
E. P. Plueddemann. Proc Water Harvesting Symp. Phoenix, p. 76 (26 March 1974).
D. I. Hillel. U. S. Patent 4,027,428 (1978).
G. H. Snyder, H. J. Ozaki, and N. C. Hayslip Proc. Soil Sci. Soc. Am. 38(4), 678 (1974).
D. Scholl. Proc. Soil Sci. Soc. Am. 38(4) (1974).
E. P. Plueddemann. U. S. Patent 4,557,854 (to Dow Corning) (1985).
C. H. Lochmuller and C. S. Amoss J. Chromatogr. 108, 85 (1975).
C. H. Lochmuller. In D. E. Leyden and W. T. Collins, Eds., Silylated Surfaces, pp. 231–267, Gordon and Breach, London (1980).
D. M. Hercules, L. E. Cox, S. Onisnick, G. D. Nichols, and J. C. Carber Anal Chem. 45, 1973 (1973).
I. K. Guha and J. Janak J. Chromatogr. 68, 325 (1972).
F. C. Chow and E. Grushka. In Silylated Surfaces, D. E. Leyden and W. T. Collins, Eds., pp. 301–319, Gordon and Breach, London (1980).
F. K. Chow and E. Gruska Anal Chem. 50, 1346 (1978).
D. E. Leyden. In Silylated Surfaces, D. E. Leyden and W. I. Collins, Eds., pp. 321–332, Gordon and Breach, London (1980).
D. E. Leyden and G. H. Luttrell Anal Chem. 47, 161 (1975).
D. E. Leyden, G. H. Luttrell, W. K. Nonidez, and D. B. Werho. Anal Chem. 48, 67 (1976).
M. Debello, Master’s Thesis, Univ. of Colorado (June 1981).
E. P. Plueddemann. In Silanes, Surfaces, and Interfaces, Vol I, pp. 1–24, D. E. Leyden, Ed. Gordon and Breach, London (1986).
E. P. Plueddemann. U. S. Patent 4,379,931 (to Dow Corning) (1983).
K. G. Allum, R. D. Hancock, I. V. Howell, S. McKenzie, R. C. Pithethy, and R. J. Robinson J. Organomet. Chem. 87, 203 (1975).
T. J. Pinnavaia, J. G-S. Lee, and M. Abedini. In Silylated Surfaces, D. E. Leyden and W. T. Collins, Eds. pp. 333–344, Gordon and Breach, London (1980).
E. P. Plueddemann and H. K. Chu. Unpublished data.
A. J. Isquith, E. A. Abbott, and P. A. Walters Appl. Microbiol. 23(6), 859 (1973).
W. C. White and R. L. Gettings. In Silanes, Surfaces, and Interfaces, Vol I, pp. 107–140, D. E. Leyden, Ed., Gordon and Breach, London (1986).
L. Blehm, J. R. Malek, W. C. White. U. S. Patent 4,631,273 (to Dow Corning) (1986).
W. Machleist. Proc Int. Conf. Solid Phase Methods in Protein Sequence Analysis, p. 17 (1975).
M. Lynn. “Inorganic Support Intermediates: Covalent Coupling of Enzymes on Inorganic Supports.” In Immobilized Enzymes, Antigens, and Peptides, H. H. Weetal, Ed., Marcel Dekker, New York (1975).
R. A. Messing. Immobilized Enzymes for Industrial Reactors, Academic, New York (1975).
D. L. Eaton. In Silylated Surfaces, D. E. Lcyden and W. T. Collins, Eds., pp. 201–227 Gordon and Breach, New York (1980).
D. L. Eaton. Med. Res. Eng. 12(3), 17 (1976).
J. B. Peri J. Phys. Chem. 701, 2937 (1966).
R. D. Smith and P. E. Corbin J. Am. Ceram. Soc. 32(6), 195 (1949).
G. P. Royer and F. A. Liberatore. In Silylated Surfaces, D. E. Lcyden and W. T. Collins, Eds., pp. 189–199, Gordon and Breach, New York (1980).
G. P. Royer. CHEMTECH, p. 695 (Nov. 1974).
R. S. Schrifreen, D. A. Hanna, L. D. Bowers, and P. W. Carr. Anal. Chem. 49, 1929 (1977).
P. Creatrecasas and C. B. Anfinscn Ann. Rev. Biochem. 40, 259 (1971).
K. J. Skinner. “Enzymes Technology.” In Chenu Eng. News, pp. 22–41 (18 Aug 1975).
B. C. Arkles, A. S. Miller, and W. S. Brinigar. In Silylated Surfaces, D. E. Leyden and W. T. Collins, Eds., pp. 363–375, Gordon and Breach, New York (1980).
P. R. Moses, L. Wier, and R. W. Murray Anal. Chenu 47, 1882 (1975).
A. Diaz. J. Am. Chenu Soc. 99, 5383 (1977).
A. Diaz. In Silylated Surfaces, D. E. Leyden and W. T. Collins, Eds., pp. 137–157, Gordon and Breach, London (1980).
N. R. Armstrong. In Silylated Surfaces, D. E. Leyden and W. T. Colins, Eds., pp. 159–171, Gordon and Breach, New York (1980).
J. R. Lenhard and R. W. Murray U. Electroanal. Chem. 77, 393 (1977).
F. J. Kahn, G. N. Taylor, and H. Schonhorn Proc Inst. Electr. Electron. Eng. 61, 823 (1973).
Author information
Authors and Affiliations
Rights and permissions
Copyright information
© 1991 Springer Science+Business Media New York
About this chapter
Cite this chapter
Plueddemann, E.P. (1991). Other Applications of Silane Coupling Agents. In: Silane Coupling Agents. Springer, Boston, MA. https://doi.org/10.1007/978-1-4899-2070-6_8
Download citation
DOI: https://doi.org/10.1007/978-1-4899-2070-6_8
Publisher Name: Springer, Boston, MA
Print ISBN: 978-1-4899-2072-0
Online ISBN: 978-1-4899-2070-6
eBook Packages: Springer Book Archive