Monitoring the Synthesis and Properties of Copolymeric Polycations

García, Gemma González; Kreft, Tomasz; Alb, Alina M.; Cal, José C. de la; Asúa, José M.; Reed, Wayne F.

doi:10.1021/jp802852m

Cited by 19 publications

(11 citation statements)

References 65 publications

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“…The resulting charged macromolecules are subject to electrostatic inter- and intramolecular interactions, and such interactions explain the peculiar behavior of polyelectrolytes in solution . As a matter of fact, the mutual correlation between some fundamental solution properties of polyelectrolytes, such as intrinsic viscosity, ionic strength, solution conductivity, molecular weight, and polymer chain conformation, is not yet clearly understood or easily predicted. − …”

Section: Introductionmentioning

confidence: 99%

“…Cationic polymers, also referred to as polycations, are polyelectrolytes leaving macrocations after dissociation. They are mainly used as flocculants in wastewater treatment and paper-making industry, in the stabilization–destabilization of emulsions, and in the production of cosmetics and pharmaceuticals. , Latest applications of these materials are found in the biochemical and medical fields, such as the manufacture of implant coatings and controlled drug delivery devices . Indeed, nanoparticles made of polycations can be effectively used to package genetic material (e.g., siRNA) in order to bypass degradative bioenvironments and achieve targeted release …”

Section: Introductionmentioning

confidence: 99%

“…In particular, special attention has been devoted to the characterization of the evolution of copolymer composition of polyelectrolytes as well as of the polymer properties (e.g., conductivity, molar mass, intrinsic viscosity) during the polymerization reaction. Mayo–Lewis plots and reactivity ratios have been obtained experimentally for various relevant copolymers involving quats: AAm- co -(DMAEA-Q), ,,,,,− AAm- co -(DMAEM-Q), ,,,, AAm- co -DADMAC, ,, (di-M)- co -AAm, and (di-M)- co -(DMAEA-Q) …”

Section: Introductionmentioning

confidence: 99%

“…The system is first investigated experimentally with the aim of characterizing reaction kinetics and evolution of copolymer composition. Few works about the investigation of the copolymerization of this cationic monomer with AAm can be found in the literature. ,,,,,− As an improvement to the previous studies, the effect of reaction parameters such as initial monomer concentration and composition is thoroughly investigated in this work, specifically extending the analysis from very low to highly concentrated solutions, in order to shed light on the composition behavior. A state-of-the-art technique based on 1 H NMR spectroscopy is adopted to collect very accurate data of monomer conversion and composition as a function of time.…”

Section: Introductionmentioning

confidence: 99%

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Experimental and Modeling Study of Acrylamide Copolymerization with Quaternary Ammonium Salt in Aqueous Solution

2015

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The free-radical copolymerization of acrylamide with the cationic monomer DMAEA-Q in aqueous medium is investigated with special attention to its composition behavior, which reveals to be affected by the electrostatic interactions between the charges in the system. The reaction kinetics is determined by in situ 1 H NMR experiments, showing a peculiar dependence of the copolymer composition upon initial monomer and electrolyte concentrations. A kinetic model simulating the evolution of copolymer composition as a function of conversion is developed, accounting for the nonconventional features of the system. Namely, a description of the electrostatic interactions based on the DLVO theory is introduced to define a functional dependence of the rate coefficients on the ionic strength. Secondary reactions are also included due to the acrylic nature of both monomers. The proposed model is applied to estimate the corresponding reactivity ratios and proves to exhibit the correct functionality with respect to monomer concentration and ionic strength.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Experimental and Modeling Study of Acrylamide Copolymerization with Quaternary Ammonium Salt in Aqueous Solution

2015

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“…The molecular weight can be simultaneously controlled by the total rates of A and B feed, where p can now be a function of instantaneous comonomer concentrations and can also be recomputed if and as it changes during copolymerization. ACOMP has been used extensively for monitoring copolymerization reactions, − so that the underlying methodology needed to provide composition information to the copolymerization controller already exists.…”

Section: Discussionmentioning

confidence: 99%

Automatic Control of Polymer Molecular Weight during Synthesis

McAfee

Leonardi²,

Montgomery³

et al. 2016

Macromolecules

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The continuous record of monomer and polymer concentrations, C m and C p , and cumulative weight-average mass, M w , furnished by automatic continuous online monitoring of polymerization reactions (ACOMP) has been harnessed to provide feedback to control reactor monomer flow in order to follow a target trajectory M w,t (t) during linear chain growth free radical polymerization. This was achieved without a detailed kinetic model. Two proportionality parameters to pilot the controller, α and p, result from (i) reaction rate = αC m and (ii) M w,inst = pC m , where M w,inst is instantaneous M w . Using Ansatz values for α and p, the controller periodically recomputes these, based on the ACOMP data stream, in order to follow M w,t (t). A histogram of concentration vs M w,inst estimates the molecular weight distribution width. Invoking an instantaneous distribution provides polydispersities. Results are compared to GPC analysis on end products. The concept of "isomorphic reaction pair" is introduced: two reactions that follow the same trajectory under different reaction variables, e.g., varying T at constant [initiator] and varying [initiator] at T = constant. The controller can be used, as is, for high solids reactions, and extended to copolymerization, including for possible control of composition gradients in controlled radical polymerization.

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Automated Continuous Online Monitoring of Polymerization Reactions (ACOMP) and Related Techniques

Reed

2000

Encyclopedia of Analytical Chemistry

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Automatic continuous online monitoring of polymerization ( ACOMP ) is a widely applicable platform for monitoring and potentially controlling polymerization reactions. It relies on the continuous extraction, dilution, and conditioning of a small sample stream from the reactor on which measurements by various combinations of detectors are made. By combining simultaneous data from multiple detectors, continuous monitoring of salient reaction characteristics can be made, such as kinetics, conversion of comonomers, composition drift, evolution of molecular mass and intrinsic viscosity, and detection of unusual phenomena, such as microgelation and runaway reactions. Typical detectors include light scattering, UV /visible spectrophotometry, viscometry, refractivity, and polarimetry. Recent additions to ACOMP include the ability to use multiple similar sensors to detect the onset and evolution of polymer‐stimuli‐responsive behavior during synthesis, for example, copolymer compositions at which a lower critical solution temperature occurs. ACOMP has been applied to free radical, controlled free radical, and condensation reactions, to micellar, emulsion, and inverse emulsion polymerization, to postpolymerization and derivitization reactions, and to batch, semibatch, and continuous reactors. While ACOMP is not inherently a chromatographic method, its continuous stream can be used in automatic conjunction with gel permeation chromatography ( GPC ) and other separation chromatographies. A growing area for ACOMP is its integration into predictive and closed‐loop reaction control.

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Monitoring the Synthesis and Properties of Copolymeric Polycations

Cited by 19 publications

References 65 publications

Experimental and Modeling Study of Acrylamide Copolymerization with Quaternary Ammonium Salt in Aqueous Solution

Experimental and Modeling Study of Acrylamide Copolymerization with Quaternary Ammonium Salt in Aqueous Solution

Automatic Control of Polymer Molecular Weight during Synthesis

Automated Continuous Online Monitoring of Polymerization Reactions (ACOMP) and Related Techniques

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