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Polymerization induced

V-viiiyIpyrrolidone (NVP) polymerization induced decomposition of BPO 86 RAFT 507 stibine-metliated 524... [Pg.639]

Cortese., J.D., Schwab III, B., Frieden, C., Elson, E.L. (1989). Actin polymerization induces a shape change in actin-containing vesicles. Proc. Natl. Acad. Sci. USA 86, 5773-5777. [Pg.102]

Styrene Free radical polymerization similar to the above. Also susceptible to rapid cationic polymerization induced by AlCb at —80°C and to anionic polymerization using alkali metals or their hydrides —CH2—CH— (ieHs T = 100 Amorphous, even when stretched. Hard. Soluble in aromatic hydrocarbons, higher ketones, and esters... [Pg.52]

Free radical polymerization is slow and yields only very low polymers. Vigorous cationic polymerization induced by BFs-ether complex at temperatures down to —... [Pg.53]

Not susceptible to free radical or anionic polymerization, but cationic polymerization induced by BFs, AICI3, etc., is extremely rapid even at — 100°C... [Pg.53]

The temperature coefficient of the rate of a polymerization induced by a thermally decomposing initiator must depend according to Eq. (12) both on the temperature coefficient of kp/k] and on that of kd. Upon substituting Arrhenius expressions for each of the rate constants... [Pg.123]

New Views on Cationic Polymerizations Induced by Ionizing Radiations (1993)... [Pg.338]

Graphite and carbon fibers have been used at templates. Thus, nylon 6 has been polymerized on a graphite matrix. Such syntheses of polymers in the presence of a solid template, where the solid acts as a template have been described as polymerization-induced epitaxy (PIE). The monomer and resulting film is adsorbed on the template surface through only van der Waals forces. After polymerization, the polymer is washed from the template. The recovered polymer retains special structural features introduced by the template. [Pg.506]

As seen with the thin films, addition of a competitive small molecule hgand for the vims reduced the CR. Longer UV irradation resulted in the formation of purple hpo-somes that were more sensitive to the influenza vims. The increased sensitivity was suggested to arise as a consequence of the greater degree of polymerization induced by the longer irradiation time. [Pg.313]

Trialkyl derivatives of boron, and in fact many other molecules such as boroxines with carbon-boron bonds, react readily with oxygen. The initial products are peroxy derivatives with BOOR bonds, which tend to react further to form borate esters. The ease of the initial reaction is shown by the fact that reported examples of vinyl polymerization induced by trialkyl borons require oxygen and are actually radical processes induced by the boron oxygen reaction or intermediate peroxides (7). [Pg.182]

See other pages where Polymerization induced is mentioned: [Pg.2564]    [Pg.133]    [Pg.117]    [Pg.212]    [Pg.418]    [Pg.412]    [Pg.69]    [Pg.616]    [Pg.148]    [Pg.53]    [Pg.53]    [Pg.64]    [Pg.67]    [Pg.68]   
See also in sourсe #XX -- [ Pg.170 ]



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Acetaldehyde-induced polymerization

Acrylamide radiation-induced polymerization

Atom abstraction-induced polymerization

Atom abstraction-induced ring-opening polymerization of chalcogenido-bridged metallocenophanes

Cationic polymerization Induced

Cavitation-induced polymerization

Domain formation, polymerization induced

Ethylene radiation-induced polymerization

High-energy-radiation-induced cationic polymerization

High-performance polymeric materials for separation and reaction, prepared by radiation-induced graft polymerization

Improved polymerization-induced colloid

Induced crystallisation of flexible polymeric molecules by pressure and stress

Induced monomer polymerization

Laser vaporization, inducing polymerization

Laser-induced polymerization

Laser-induced polymerization advantages

Light-induced polymerization

New Views on Cationic Polymerizations Induced by Ionizing Radiations

Plasma ablation induced polymerization

Plasma-induced graft polymerization

Plasma-induced polymerization

Plasma-induced polymerization treatments

Polymerization carbanion-induced

Polymerization induced phase separation PIPS)

Polymerization photo-induced

Polymerization photo-induced controlled

Polymerization radiation-induced

Polymerization thermally-induced

Polymerization, activation radiation induced

Polymerization-induced diffusion

Polymerization-induced phase

Polymerization-induced phase separation

Polymerization-induced phase separation decomposition

Polymerization-induced self-assembly

Polymerizations induced by ionizing radiation

Polystyrene radiation-induced polymerization

Pressure-induced acetylene polymerization

Pulsed-laser-induced polymerization

Radiation induced emulsion polymerization

Radiation induced ionic polymerization

Radiation-induced cationic polymerization

Radiation-induced graft polymerization

Radiation-induced polymerization free-radical chain initiation

Radiation-induced polymerization free-radical mechanisms

Radiation-induced polymerization initiation

Radiation-induced polymerization ionic chain initiation

Radiation-induced polymerization ionic mechanisms

Radiation-induced polymerization vinyl chloride

Radicals polymerization induced

Reaction photo-induced polymerization

Reaction-Induced Phase Separation of Polymeric Systems under Stationary Nonequilibrium Conditions

Shock-induced polymerization

Spirosiloxanes as Monomers for the Photo-Induced Polymerization to Polysiloxane Architectures

Styrene radiation-induced polymerization

Surface-induced polymerization

Tetroxocane, radiation-induced polymerization

Trioxane, radiation-induced polymerization

UV-induced radical polymerization

Ultrasound-induced Radical Polymerization

Ultraviolet-induced polymerization

Y-Radiation-induced polymerization

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