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91.
C. I. Simionescu V. Percec A. Natansohn 《Journal of polymer science. Part A, Polymer chemistry》1982,20(3):655-661
Radical copolymerization of N-(2-hydroxyethyl) carbazolyl acrylate (HECA, M1) with 2,4-dinitrophenyl methacrylate (DNPM, M2) can be described by a simple terminal mechanism having the relative reactivities r1 = 0.14, r2 = 1.10 (at 60°C); 0.28, 0.96 (80°C); and 0.41, 0.79 (100°C), respectively. The dependence of the reactivity ratio values on copolymerization temperature, analyzed by Arrhenius equation, takes place mainly through the frequency factor. The copolymers obtained are intramolecular charge transfer complexes. The intramolecular interaction is evidenced by the shift of the aromatic protons from the DNPM structural unit in the copolymers' 1H-NMR (nuclear magnetic resonance) spectra. This shift depends on sequence distribution and chain conformation, but is not affected by the copolymerization temperature. 相似文献
92.
V. Percec M. Lee H. Jonsson 《Journal of polymer science. Part A, Polymer chemistry》1991,29(3):327-337
The synthesis and living cationic polymerization of 11-[(4-cyano-4′-biphenyl)oxy]-undecanyl vinyl ether ( 6 – 11 ) are described. The mesomorphic phase behavior of poly( 6 – 11 ) with different degrees of polymerization was compared to that of 6 – 11 and of 11-[(4-cyano-4′-biphenyl) oxy] undecanyl ethyl ether ( 8 – 11 ) which is the model compound of the monomeric structural unit of poly( 6 – 11 ). 6 – 11 displays a monotropic SA and a monotropic nematic mesophase while 8 – 11 an enantiotropic SA mesophase. Poly( 6 – 11 ) with low degrees of polymerization exhibits an enantiotropic SA mesophase. Poly( 6 – 8 ) with high degrees of polymerization displays an enantiotropic SX (i. e., an unidentified smectic phase) and an enantiotropic SC mesophase. These results demonstrate that the transformation of the nematic mesophase of the monomer into a smectic mesophase after polymerization, occurs at the level of monomeric structural unit. 相似文献
93.
94.
Brad M. Rosen Gerard Lligadas Christian Hahn Virgil Percec 《Journal of polymer science. Part A, Polymer chemistry》2009,47(15):3931-3939
The development of a novel nucleophilic thio‐bromo “Click” reaction, specifically base‐mediated thioetherification of thioglycerol with α‐bromoesters, is reported. Combination of this thio‐bromo click reaction with subsequent acylation with 2‐bromopropionyl bromide provides an iterative two‐step divergent growth approach to the synthesis of a new class of poly(thioglycerol‐2‐propionate) (PTP) dendrimers. This approach is demonstrated in the rapid preparation of four generation (G1–G4) of PTP dendrimers with high‐structural fidelity. The isolated G1–G4 bromide‐terminated dendrimers can be used directly as dendritic macroinitiators for the synthesis of star‐polymers via SET‐LRP. Additionally, the intermediate hydroxy‐terminated dendrimers are analogs of other water‐soluble polyester and polyether dendrimers. © 2009 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 47: 3931–3939, 2009 相似文献
95.
Simona Percec Gabriel Skidd Ming Zheng 《Journal of polymer science. Part A, Polymer chemistry》2009,47(22):6014-6024
This study explores the use of N‐substituted polypyrroles as a route for localizing DNA molecules onto conducting surfaces. N‐substituted pyrrole monomers containing N‐hydroxysuccinimidyl groups for DNA binding reactions were synthesized. These monomers were electro‐copolymerized under different conditions on platinum or gold working electrodes in a three‐electrode/single compartment cell. Subsequent DNA reactions were performed by incubating the resulting polymer conductive films with amino‐substituted DNA sequences. In addition, the electro‐copolymerization reactions of pyrrole monomers were conducted on preselected electrode positions of the Molecular Nanosystems (MNS) wafers and the formation of conductive films was demonstrated. In these experiments, it was determined also that by controlling the electro‐copolymerization reactions, the conductive films can be restricted to grow on specific locations of the MNS wafer. This was achieved by electrically passivating the chosen electrodes with self‐assembled multilayers (SAM)s of alkane thiols. Hexadecane thiol (HDT) was found the most efficient in forming SAMs and in preventing the pyrrole electropolymerization. Various analytical techniques including AFM, IR, and cyclic voltammetry (CV) were used to characterize the monomers, the electropolymerized polymers, and the attachment of amine‐terminated DNA to polypyrrole copolymers. © 2009 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 47: 6014–6024, 2009 相似文献
96.
Brad M. Rosen Virgil Percec 《Journal of polymer science. Part A, Polymer chemistry》2008,46(16):5663-5697
The heterolytic dissociation process associated with the activation of Single Electron‐Transfer Living Radical Polymerization is examined through the use of energy profile modeling. Monomer and initiator structure is correlated with the approximate activation barriers, energies of electrostatic ion‐radical pair formation, and stability of ion‐radical pair generated from the counteranion halide leaving group and the radical atom with partial positive charge density induced by its electron‐withdrawing substituent. Energy profiles permit access not just to one, but to all local minima, in the dissociation pathway and the identification of a global minimum. The location and energy of this global minimum allows for the placement of various initiators and dormant propagating macroradicals on the spectrum between stepwise and concerted dissociative electron‐transfer. The barrier for the activation step for alkyl‐halides derived from acrylates, vinyl halides, and styrenes, as well as from initiators bearing electron‐withdrawing groups is decreased in comparison to relatively more electron‐rich alkyl halides. This rate enhancement is explained through the sticky dissociative model wherein electron‐transfer is accelerated by the formation of strong ion‐radical pairs between radicals with partial positive charge density and their counteranion leaving group. Greater electron‐withdrawing capacity of the alkyl halide substituent increases the stability of the ion‐radical pair, reduces its equilibrium bond length, and accelerates electron‐transfer. © 2008 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 46: 5663–5697, 2008 相似文献
97.
Virgil Percec Shigeru Okita 《Journal of polymer science. Part A, Polymer chemistry》1992,30(6):1037-1049
This article describes the synthesis of a novel series of soluble polyarylenes containing alternating binapthylene and biphenylene structural units. They were obtained by the cation-radical polymerization of bis(1-naphthyl) biphenyls. The following monomers were synthesized and polymerized : 4,4′-bis(1-naphthyl) biphenyl ( 9 ), 3,3′-bis(1-naphthyl) biphenyl ( 10 ), 2,2′-bis(1-naphthyl)biphenyl ( 11 ), and 2,5-bis(1-naphthyl)biphenyl ( 14 ). All polymerizations were performed in nitrobenzene using FeCl3 as oxidant. Polymers with number average molecular weights of up to 4000 g/mol were obtained. 相似文献
98.
99.
Virgil Percec Anatoliy V. Popov 《Journal of polymer science. Part A, Polymer chemistry》2005,43(6):1255-1260
The chloroiodomethyl chain ends of poly(vinyl chloride) (PVC) obtained by the single‐electron‐transfer/degenerative‐chain‐transfer mediated living radical polymerization of vinyl chloride initiated with iodoform were quantitatively functionalized by the reaction with 2‐allyloxyethanol (CH2?CHCH2OCH2CH2OH). This reaction was performed in dimethyl sulfoxide at 70 °C and was catalyzed by sodium dithionite/sodium bicarbonate. The resulting product is the first example of telechelic PVC [α,ω‐di(hydroxy)PVC]. A possible mechanism for this reaction was suggested. © 2005 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 43: 1255–1260, 2005 相似文献
100.