Poly(acrylic acid) interpolymer complexes

Swift, Thomas, Seaton, Colin C., Rimmer, Stephen

03 November 2017

Yes / Interpolymer complex formation of poly(acrylic acid) with other macromolecules can occur via several mechanisms that vary depending on the pH. At low pH the protonated acid functional group can form bonds with both donor and acceptor moieties, resulting in desolvated structures consisting of two polymers. Complexes were formed in dilute solutions of PAA, functionalised with acenaphthylene, with a range of other polymers including: poly(NIPAM); poly(ethylene oxide) (PEO); poly(dimethylacrylamide) (PDMA); poly(diethyl acrylamide) (PDEAM) poly(vinyl alcohol) (PVA) and poly(vinyl pyrolidinone) (PVP). Fluorescence anisotropy was used to demonstrate complex formation in each case by monitoring the reductions in segmental motion of the chain as the complexes formed. Considerations of the molecular structures of the complexing moieties suggest that solvation energies and pKas play an important role in complex formation.

Properties of confinedpNIPAM-co-AAC microgels

Marczewski, Kamil

05 April 2011

Tunable nanostructures have many important uses in thin film applications. Tunability can be achieved by creating a film that has features that respond to external stimuli, such as temperature, humidity, or pH. However, the response can vary greatly between a confined and unconfined case. In the case of confined materials, this response can be greatly reduced, even completely suppressed, which indicates that separate studies must be conducted on confined states in order to better understand their use for real applications. Microgels have been previously shown to have exceptional responsive properties that depend on their chemical structure and synthesis. Unlike solid thin hydrogel films that respond on the order of hours, microgels arrange on a surface with no external force and create a highly porous layer which responds rapidly, on the order of minutes, to outside stimuli. These properties make microgels a promising candidate for use in tunable thin films. Although the responsive properties of microgels have been extensively studied in solution and unconfined films, this is not indicative of conditions that would most likely have the microgels placed between two stiffer layers of material. Microgels have been shown to respond to glucose concentration, temperature, pH, and light. One well-studied microgel is poly-N-isopropylacrylamide copolymerized with Acrylic Acid (pNIPAM-co-AAC). These microgels use the thermal response of pNIPAM combined with the pH sensitivity of pAAC to create a dually-responsive material. To study the effects of confinement on pNIPAM-co-AAC microgels, we encapsulated these particles within bi-layers of poly(allylamine hydrochloride)-poly(sodium 4-styrenesulfonate) (PAH-PSS) in order to simulate their response within a polyelectrolyte material. Our samples were prepared with a method called tilt-drying, which creates a microgel concentration gradient. This allowed us to study both the confinement caused by the multi-layered film as well as the effects of microgels on each other. Our results have shown that the change in particle height is unaffected by the concentration of the film, but the thermal response of pNIPAM-co-AAC microgels is significantly suppressed by the encapsulation of microgels into nanoscale layers.

PNIPAM

Microgels

AAC

Thermal response

Thin films

Polymers

Acrylic acid

Random controlled free radical copolymerization of acrylic acidstyrene and tert-butyl acrylatestyrene mixtures using nitroxide mediators

Lessard, Benoît H., 1985-

January 2008

Controlled free radical polymerization facilitates the production of polymers with highly defined microstructures like traditional ionic polymerization; but in contrast allows for previously unattainable monomer combinations such as acrylic acid in its non-protected form. Incorporation of acrylic acid into styrene was done by random copolymerization of acrylic acid (directly and in its protected form as tert-butyl acrylate) with styrene. Styrene/tert-butyl acrylate (S/t-BuA) as well as styrene/acrylic acid (S/AA) mixtures were copolymerized to form tapered or gradient copolymers. Using an alkoxyamine unimolecular initiator, 2-[N- tert-butyl-2,2-(dimethylpropyl)aminooxy] propionic acid (BlocBuilder RTM), along with additional free nitroxide (SG1), the effect of acid protection on polymerization kinetics and copolymer composition was determined. Adding 4.5 mol% SG1/BlocBuilderRTM greatly improved the control of S/t-BuA copolymerization with low polydispersities (1.14-1.22) whereas the S/AA required higher levels of SG1 to produce polymers with low polydispersities that were comparatively still broader compared to the S/t-BuA system (polydispersities ∼ 1.3-1.4 at 9 mol% SG1/BlocBuilderRTM). S/AA copolymerization required higher SG1 concentrations to compensate for degradation of SG1 by attack from the acrylic acid monomer.

Copolymers -- Synthesis.

Polystyrene -- Synthesis.

Acrylic acid.

Acrylates.

Styrene.

Nitroxides.

UV initiated reversible addition fragmentation chain transfer polymerization of N-isopropylacrylamide and acrylic acid in aqueous solution at ambient temperature

Song, Wentao, Chemical Sciences & Engineering, Faculty of Engineering, UNSW

January 2008

It was demonstrated for the first time that RAFT polymerizations of NIPAAm can be carried out directly in water at room temperature without photo initiator under UV radiation. Under these conditions, the controlled/living features could be proven for a large range of monomer/RAFT agent ratios. Moreover, even at a monomer conversion exceeding 80%, polymerization control (PDI<1.2) is maintained. It is also demonstrated that the RAFT polymerization of AA can be carried out without photo initiator in water at ambient temperature in the presence of TRITT at short wavelength. At these wavelengths, the controlled/ living characteristics is maintained even at a monomer to polymer conversions exceeding 80%. UV/Vis spectrometry was employed to monitor the functional group (-S(C=S)S-) changes of the employed trithiocarbonate RAFT agent S,S???-Bis(??,?????-dimethyl-acetic acid)-trithiocarbonate (TRITT) in aqueous solution when exposed to UV radiation. It is shown that the degradation pattern of TRITT alone as well as TRITT in the presence of NIPAAm deviate from each other. Surprisingly, it is found that TRITT completely decomposed at 254 nm while the addition of monomer prevented the decomposition of TRITT at the same wavelength. Nuclear magnetic resonance (NMR) techniques were applied to study the decomposition products of TRITT in solution without the addition of monomer. Methanol-d4 was selected as the solvent. In addition, high-resolution soft ionization mass spectrometry techniques were used to map the product species generated during UV radiation induced RAFT polymerizations of NIPAAm and AA in aqueous media, allowing for the tentative assignment of end groups. The NMR analysis suggests that the decomposition of TRITT in methanol-d4 under UV radiation has three cleavage patterns. These three cleavage patterns (described in the current thesis in detail) all occur at the ???S(C=S)S- group, which is the weakest structural unit in TRITT molecule. iii However, polymerization occurs prior to decomposition, if monomer is present. The mass spectrometric analysis suggests that the initial radicals result from the dissociation of TRITT, as well as monomer. Trithiocarbonate end group degradation leading to the formation of thiol terminated chains is also occurring. In the case of NIPAAm polymerization, a peak which may be associated with a cross termination product of the intermediate radical was observed under both 302 nm and 254 nm wavelength irradiation. Interestingly, this peak does not occur in AA polymerization at any wavelength (nor is it expected to form under conventional RAFT conditions and was not observed in previous mass spectrometry studies in thermal or ??-initiated polymerizations of NIPPAm with TRITT) and thus this assignment should be treated as very tentative only.

Acrylic Acid

UV initiation

RAFT polymerization

N-isopropylacrylamide

Modification of polymeric substrates using surface grafted nanoscaffolds

Thompson, Kimberlee Fay.

January 2005

Thesis (Ph. D.)--Polymer, Textile and Fiber Engineering, Georgia Institute of Technology, 2006. / Carter, W. Brent, Committee Member ; Cook, Fred, Committee Member ; Griffin, Anselm, Committee Member ; Michielsen, Stephen, Committee Chair ; Beckham, Haskell, Committee Member ; Bottomley, Lawrence, Committee Member.

Desenvolvimento e aplicação de óxidos mistos porosos de vanádio e molibdênio como catalisadores na desidratação oxidativa do glicerol /

Rasteiro, Letícia Fernanda.

January 2017

Orientador: Leandro Martins / Banca: Wellington Henrique Cassinelli / Banca: Elisabete Moreira Assaf / Resumo: Este trabalho descreve a avaliação de óxidos mistos porosos de vanádio e molibdênio na reação de desidratação oxidativa do glicerol a ácido acrílico em uma única etapa. O trabalho divide-se em duas partes, em que na primeira tem-se a síntese, caracterização e avaliação catalítica dos materiais inicialmente sem tensoativos para posterior aplicação das condições ideias encontradas nesta etapa na segunda etapa, sendo ela a síntese, caracterização e avaliação catalítica dos materiais porosos. Na preparação dos materiais sem tensoativos variou-se a atmosfera de síntese e de tratamento térmico, mostrando que diferentes fases cristalinas eram formadas para cada condição distinta e por meio do método de Rietveld fez-se a quantificação dessas fases cristalinas formadas para cada amostra. Ao correlacionar as fases cristalinas presentes em cada amostra com os resultados catalíticos, observou-se que o melhor resultado se deu para aquela sintetizada e tratada termicamente em atmosfera de O2, no qual a fase Mo4,65V0,35O14 era predominante. Avaliou-se também a acidez dos materiais, porém os mesmos apresentaram poucas quantidades de sítios ácidos totais. Analisou-se também as condições para a reação catalítica, variando-se a temperatura e a atmosfera de reação. Por meio de todo o estudo das melhores condições concluiu-se que sintetizar e tratar termicamente em atmosfera de O2 leva aos melhores resultados catalíticos e que realizar a reação catalítica em atmosfera de O2 a 320°C melhora ainda ... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: This work describes the evaluation of porous vanadium and molybdenum mixed oxides in the one-step glycerol oxydehydration to acrylic acid. The work was separated in two parts, where the first one is the synthesis, characterization and catalytic evaluation of the materials initially without the pores for later application of the ideal conditions found in this stage in the second stage, being it the synthesis, characterization and catalytic evaluation of porous materials. In the materials preparation without pores, the synthesis and heat treatment atmosphere was varied, showing that different crystalline phases were formed for each distinct condition and by means of the Rietveld refinement method the crystalline phases formed for each sample were quantified. By correlating the crystalline phases present in each sample with the catalytic results, it was observed that the best result was obtained for the one synthesized and thermally treated in O2 atmosphere, in which the Mo4.65V0.35O14 crystalline phase was predominant. The acidity of the materials was also evaluated, but they presented few amounts of total acid sites. The conditions for the catalytic reaction were also analyzed by varying the reaction temperature and the reaction atmosphere. Throughout the study of the best conditions it was concluded that synthesizing and thermally treating in O2 atmosphere leads to the best catalytic results and that performing the catalytic reaction in an O2 atmosphere at 320°C further improves the catalytic activity of the material. It was observed that there was no formation of carbonaceous compounds and that the equilibrium in the amount of the phases containing the vanadium in the reduced and oxidized forms is responsible for the best catalytic activity found and that the presence of V+4 is essential for the oxidation step of acrolein to acrylic acid. In the second stage of the work, was evaluated the material porosity influence in the glycerol... / Mestre

Catalise heterogenea.

Ácido acrílico.

Biodiesel.

Óxidos metálicos.

Glicerina.

Acrylic acid

Synthesis of peptide-loaded chitosan nanoparticles for the treatment of sexually transmitted infections (STI’s)

Phathekile, Bonke

January 2019

>Magister Scientiae - MSc / Peptides are among the main drugs which attract much attention because of their great potential in treating sexually transmitted diseases and other chronic diseases. There has been a major challenge of delivering these drugs in mucosal sites with low pH environment. The aim of this study is to synthesize acidic pH stable peptide loaded chitosan nanoparticles gels that could penetrate mucus layers covering the epithelial cells and kill HIV virus. Chitosan nanoparticles were synthesized by crosslinking method called Ionic gelation with Sodium tripolyphosphateTPP. / 2023

Chitosan

Microbicides

Tripolyphosphate

Poly acrylic acid

Antimicrobial activity

Random controlled free radical copolymerization of acrylic acidstyrene and tert-butyl acrylatestyrene mixtures using nitroxide mediators

Lessard, Benoît H., 1985-

January 2008

No description available.

Copolymers -- Synthesis.

Styrene.

Nitroxides.

Acrylates.

Polystyrene -- Synthesis.

Acrylic acid.

Poly(acrylic acid) interpolymer complexation: use of a fluorescence time resolved anisotropy as a poly(acrylamide) probe

Swift, Thomas, Swanson, L., Rimmer, Stephen

30 October 2014

Yes / A low concentration poly(acrylamide) sensor has been developed which uses the segmental mobility of another polymer probe with a covalently attached fluorescent marker. Interpolymer complexation with poly(acrylic acid) leads to reduced segmental mobility which can be used to determine the concentration of polymer in solution. This technique could be useful in detecting the runoff of polymer dispersants and flocculants in fresh water supplies following water purification processes. / Funding for the research was kindly provided by the Engineering and Physical Sciences Research Council (EPSRC).

Förster Resonance Energy Transfer across interpolymer complexes of poly(acrylic acid) and poly(acrylamide)

Swift, Thomas, Paul, N., Swanson, L., Katsikogianni, Maria G., Rimmer, Stephen

27 June 2017

Yes / Interpolymer complexes of homopolymer macromolecules are often described as ‘laddered’ or ‘ribbon’ type structures. The proposition of the existence of these ladder structures seems to us not reasonable and here we examine this hypothesis. To address this we have used polymers enabled for Förster Energy Transfer (FRET). Chromophores bound to a macromolecular backbone can transfer energy across short distances via FRET. The close binding of poly(acrylamide) and poly(acrylic acid) interpolymer complex formation at low pH forms a structure compact enough for significant energy transfer to occur between different chains containing naphthalene and anthracene labels. In the context of the proposition that ladder polymers can form it was surprising that the distance between labels on the same polymer back-bone was equivalent regardless of whether the polymer was complexed or not. The data indicated that the bicomponent structure may be more compact than previously supposed: I.e. the complexes are not ladders composed of extended chains. This evidence suggests formation not of ordered ‘ladder’ systems but colloidal ‘co-globules’. / This work was carried out in part thanks to an EPSRC CASE funded PhD studentship at the University of Sheffield, sponsored by SNF (UK) Ltd.