Citation: Dl. Hull et Jp. Kennedy, Synthesis, characterization, and crosslinking of novel stars comprising eight poly(isobutylene-azeotropic-styrene) copolymer arms with allyl or hydroxyl termini. I. Living azeotropic copolymerization of isobutylene and styrene, J POL SC PC, 39(9), 2001, pp. 1515-1524
Citation: Dl. Hull et Jp. Kennedy, Synthesis, characterization, and crosslinking of novel stars comprising eight poly(isobutylene-azeotropic-styrene) copolymer arms with allyl or hydroxyl termini. II. Stars of eight isobutylene/styrene azeotropic copolymer arms emanating from a calix[8]arene core, J POL SC PC, 39(9), 2001, pp. 1525-1532
Citation: Af. Moustafa et al., Novel polyisoblitylene stars part XXVII - Synthesis and characterization of a novel octa-arm polyisobutylene star, POLYM BULL, 47(1), 2001, pp. 9-16
Citation: Zj. Pi et Jp. Kennedy, Poly(vinyl chloride)-g-poly(2-methyl-1,5-hexadiene): PVC fitted with multiple allyl groups, POLYM BULL, 46(6), 2001, pp. 451-456
Authors:
Kennedy, JP
Fenyvesi, G
Na, S
Keszler, B
Rosenthal, KS
Citation: Jp. Kennedy et al., Synthesis and characterization of tubular amphiphilic networks with controlled pore dimensions for insulin delivery, DES MON POL, 3(1), 2000, pp. 113-122
Citation: B. Keszler et al., Novel star-block polymers: Three polyisobutylene-b-poly(methyl methacrylate) arms radiating from an aromatic core, J POL SC PC, 38(4), 2000, pp. 706-714
Citation: Js. Shim et Jp. Kennedy, New polyisobutylene stars part XXI - Novel thermoplastic elastomers. III. Synthesis, characterization, and properties of star-block copolymers of poly(indene-b-isobutylene) arms emanating from cyclosiloxane cores, J POL SC PC, 38(2), 2000, pp. 279-290
Citation: P. Kurian et al., Synthesis and characterization of novel amphiphilic block copolymers di-, tri-, multi-, and star blocks of PEG and PIB, J POL SC PC, 38(17), 2000, pp. 3200-3209
Citation: Jp. Kennedy, Comments on "Living polymerization: Rationale for uniform terminology" by Darling et al., J POL SC PC, 38(10), 2000, pp. 1733-1733
Citation: B. Keszler et al., Amphiphilic networks. XIV - Synthesis and characterization of poly(N,N-dimethylacryl-amide)-l-three-arm star polyisobutylene, POLYM BULL, 43(6), 2000, pp. 511-518
Citation: Aj. Allen et Jp. Kennedy, Amphiphilic networks XII: synthesis and characterization of quaternized amphiphilic networks derived from polyisobutylene-l-poly(2-(dimethylamino)ethyl methacrylate), DES MON POL, 2(1), 1999, pp. 29-52
Citation: Js. Shim et Jp. Kennedy, New polyisobutylene stars part XIX - Novel thermoplastic elastomers. II. Properties of star-block copolymers of PSt-b-PIB arms emanating from cyclosiloxane cores, J POL SC PC, 37(6), 1999, pp. 815-824
Citation: S. Asthana et Jp. Kennedy, Star-block polymers of multiple polystyrene-b-polyisobutylene arms radiating from a polydivinylbenzene core, J POL SC PC, 37(13), 1999, pp. 2235-2243
Citation: S. Jacob et Jp. Kennedy, Synthesis, characterization and properties of octa-arm polyisobutylene-based star polymers, ADV POLYM S, 146, 1999, pp. 1-38
Citation: Jp. Kennedy, Reengineering refinery systems: The next generation desktop, ADVANCED PROCESS CONTROL AND INFORMATION SYSTEMS FOR THE PROCESS INDUSTRIES, 1999, pp. 196-199
Citation: Jp. Kennedy, Next generation plant information systems, ADVANCED PROCESS CONTROL AND INFORMATION SYSTEMS FOR THE PROCESS INDUSTRIES, 1999, pp. 214-219
Citation: Oa. Bascur et Jp. Kennedy, Measuring, managing, and maximizing refinery performance, ADVANCED PROCESS CONTROL AND INFORMATION SYSTEMS FOR THE PROCESS INDUSTRIES, 1999, pp. 220-225