Bob A. Howell scite author profile

Currently, the most studied example of living freeradical polymerization is nitroxyl-mediated styrene polymerization. This chemistry relies upon the extremely facile and selective ability of nitroxyl radicals to trap carbon-centered radicals and the apparent reversible nature of the C-0 bond. Solomon and Rizzardol first reported this chemistry in the mid-1980s but used it to prepare mainly low molecular weight materials. Georges et aL2 reported, in 1993, the use of this chemistry to prepare narrow-polydispersity ( < 1.5) polystyrene. Over the past 2 years several research groups have been studying nitroxyl-mediated styrene polymerization. The work of Georges et al. has focused mainly upon increasing the rate of nitroxyl-mediated styrene polymerization initiated using benzoyl peroxide (BPO). They report that the nitroxyl-mediated styrene polymerization rate is significantly increased if conducted in an acidic e n~i r o n m e n t .~ The mechanism of this effect is not yet understood. Matyjaszewski et aL4 have focused on the theoretical aspects of nitroxylmediated styrene polymerization in the absence of an added initiator. Recently, Hawkel.5 synthesized I (model of the nitroxyl-mediated styrene polymerization chain end; Scheme 1) and demonstrated its use as an initiator. No effort was made to utilize I as a chain-end model to help determine the mechanism of the polymerization. Also, no acid was added to nitroxyl-mediated styrene polymerization initiated using I.The published data of these researchers consistently show the lack of truly narrow polydispersity, and the polydispersity obtained is generally proportional to the molecular weight being produced.Georges et a l . hypothesized that the lack of ability to make truly monodisperse PS using nitroxyl-mediated styrene polymerization was caused by continuous initiation of new PS chains during the p~lymerization.~ To suppress the spontaneous polymerization mechanism, camphorsulfonic acid (CSA) was added. They observed that, rather than decreasing the rate of polymerization and the polydispersity, both i n~r e a s e d .~ Matyjaszewski e t al. have proposed that the mechanism of nitroxyl-mediated styrene polymerization includes degenerative chain transfer (Scheme 2).6 Their evidence in support of this mechanism is the observation that polydispersity narrows as the polymerization temperature is increased. At the higher temperature the rate of degenerative chain transfer increases, causing the polymer chain lengths to average.One of the tools that has been used which has shed significant light on the development of an understand-0024-929719512228-6692$09.00/0 Scheme 2. Degenerative Chain-Transfer Mechanism for Nitroxyl-Mediated Styrene Polymerizationing of polymerization processes is the use of small molecules to model the living chain end.7 In this study we synthesized 2,2,6,6-tetramethyl-l-(l-phenylethoxy)-piperidine8 (TMPEP) and studied both its thermal decomposition and its use as a polymerization initiator. HPLC and IH-NMR were utilized to follow the thermal decompo...

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Synthesis and characterization of glycerol-adipic acid hyperbranched polyesters

Zhang

Howell

Dumitraşcu

et al. 2014

Polymer

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Flame retardant properties of isosorbide bis -phosphorus esters

Daniel

Howell

2017

Polymer Degradation and Stability

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Flame-retarding vinyl polymers using phosphorus-functionalized styrene monomers

Dumitraşcu

Howell

2011

Polymer Degradation and Stability

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Biobased Plasticizers from Glycerol/Adipic Acid Hyperbranched Poly(ester)s

Howell

Lazar

2019

Ind. Eng. Chem. Res.

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A family of nonphthalate plasticizers derived from well-defined glycerol/adipic acid hyperbranched poly(ester)s has been prepared. Glycerol and adipic acid are both renewable biomaterials of low toxicity. Polymerization may be accomplished under conditions that allow control of molecular weight, avoid gelation, and ensure the presence of hydroxyl end groups. Capping the end groups as esters affords materials that are effective plasticizers for PVC. These materials are thermally stable, are fully compatible with a PVC matrix, provide effective plasticization at acceptable levels, display low migratory potential, and do not accelerate degradative dehydrochlorination.

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Bob A. Howell

Kinetics of decomposition of 2,2,6,6-tetramethyl-1-(1-phenylethoxy)piperidine and its implications on nitroxyl-mediated styrene polymerization

Synthesis and characterization of glycerol-adipic acid hyperbranched polyesters

Flame retardant properties of isosorbide bis -phosphorus esters

Flame-retarding vinyl polymers using phosphorus-functionalized styrene monomers

Biobased Plasticizers from Glycerol/Adipic Acid Hyperbranched Poly(ester)s

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