Polymer chemistry PP

Vollmert, B. (transl. E. H. Immergut), Polymer Chemistry, pp. 94-147, Springer-Verlag, New York, 1973. [Pg.540]

Flory, P. J., Principles of Polymer Chemistry, pp. 102-103, Cornell Univ. Press,... [Pg.264]

K. J. Saunders, Organic Polymer Chemistry, pp. 370-393. Chapman Hall, London, 1973. [Pg.328]

Flory, J.P. (1971). Principles of polymer chemistry, pp. 601 and 602. Cornell University Press. [Pg.648]

FloryPJ. 1953. Principles of Polymer Chemistry,pp.495-540. Ithaca, NY Cornell University Press. [Pg.210]

Olivier Noiset, Yves-Jacques Schneider, and Jacqueline Marchand-Brynaert. "Surface Modification of Poly (aryl ether ether ketoneXPEEK) Film by Covalent Coupling of Amines and Amino Acids through a Spacer Arm." Journal of Polymer Science Part A Polymer Chemistry, pp. 3779-3790,1997. [Pg.92]

Joumd of Polymer Science Part A Polymer Chemistry, pp. 2413-2424,1994. [Pg.92]

P. J. Elory, Principles of Polymer Chemistry Cornell University Press, Ithaca, N.Y., 1953, pp. 266—313. [Pg.345]

Figure 12.8 Mia ocolumn size exclusion chromatogram of a styrene-aaylonitrile copolymer sample fractions ti ansfeired to the pyrolysis system are indicated 1-6. Conditions fused-silica column (50 cm X 250 p.m i.d.) packed with Zorbax PSM-1000 (7p.m 4f) eluent, THF flow rate, 2.0 p.L/min detector, Jasco Uvidec V at 220 nm injection size, 20 nL. Reprinted from Analytical Chemistry, 61, H. J. Cortes et al, Multidimensional chromatography using on-line microcolumn liquid chromatography and pyrolysis gas chromatography for polymer characterization , pp. 961 -965, copyright 1989, with peimission from the American Chemical Society.

$Figure 12.8 Mia ocolumn size exclusion chromatogram of a styrene-aaylonitrile copolymer sample fractions ti ansfeired to the pyrolysis system are indicated 1-6. Conditions fused-silica column (50 cm X 250 p.m i.d.) packed with Zorbax PSM-1000 (7p.m 4f) eluent, THF flow rate, 2.0 p.L/min detector, Jasco Uvidec V at 220 nm injection size, 20 nL. Reprinted from Analytical Chemistry, 61, H. J. Cortes et al, Multidimensional chromatography using on-line microcolumn liquid chromatography and pyrolysis gas chromatography for polymer characterization , pp. 961 -965, copyright 1989, with peimission from the American Chemical Society.$

Figure 12.9 Typical pyrolysis chromatogram of fraction from a styrene-acTylonitiile copolymer sample obtained from a miciocolumn SEC system 1, acrylonitrile 2, styrene. Conditions 5 % Phenylmetliylsilicone (0.33 p.m df) column (50 m X 0.2 mm i.d.) oven temperature, 50 to 240 °C at 10 °C/min carrier, gas, helium at 60 cm/s flame-ionization detection at 320 °C make-up gas, nitrogen at a rate of 20 mL/min. P indicates tlie point at which pyrolysis was made. Reprinted from Analytical Chemistry, 61, H. J. Cortes et ai, Multidimensional cliromatography using on-line microcolumn liquid cliromatography and pyrolysis gas cliromatography for polymer characterization , pp. 961-965, copyright 1989, with permission from tlie American Chemical Society.

$Figure 12.9 Typical pyrolysis chromatogram of fraction from a styrene-acTylonitiile copolymer sample obtained from a miciocolumn SEC system 1, acrylonitrile 2, styrene. Conditions 5 % Phenylmetliylsilicone (0.33 p.m df) column (50 m X 0.2 mm i.d.) oven temperature, 50 to 240 °C at 10 °C/min carrier, gas, helium at 60 cm/s flame-ionization detection at 320 °C make-up gas, nitrogen at a rate of 20 mL/min. P indicates tlie point at which pyrolysis was made. Reprinted from Analytical Chemistry, 61, H. J. Cortes et ai, Multidimensional cliromatography using on-line microcolumn liquid cliromatography and pyrolysis gas cliromatography for polymer characterization , pp. 961-965, copyright 1989, with permission from tlie American Chemical Society.$

Adapted from Polymer Chemistry, National Science Teachers Association, Washington, D.C., 1989, pp. 169-170. Reference ASTM D-638. [Pg.460]

Tomalia, D. A. and Brothers II, H. M. Biological Molecules in Nanotechnology The Convergence of Biotechnology, Polymer Chemistry and Material Science. IBC Library Series Publication No. 1927,1998, pp. 107-119. [Pg.459]

Heller, M. J. Utilization of synthetic DNA for molecular electronic and photonic-based device applications, in Lee, S. C. and Savage, L. (eds), Biological Molecules in Nanotechnology the Convergence of Biotechnology, Polymer Chemistry and Materials Science, IBC Press, Southborough, MA, USA, 1998, pp. 59-66. [Pg.555]

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