Aline S. S. Valle scite author profile

Aline S. S. Valle

4Publications

55Citation Statements Received

70Citation Statements Given

How they've been cited

115

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Rio de Janeiro State University

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Preparation and antibacterial activity of silver nanoparticles impregnated in bacterial cellulose

et al. 2010

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Polymer nanocomposites containing metal nanoparticles can be prepared by different methods: mechanical mixing of a polymer with metal nanoparticles; in situ polymerization of a monomer in the presence of metal nanoparticles; or in situ reduction of metal salts or complexes in a polymer [8,9] . These polymer nanocomposites have attracted a great deal of attention due to their unique properties and applications [10,11] . The literature describes many methods to prepare ultrafine silver powders [12][13][14][15] including the formation of Ag nanoparticles attached to bacterial cellulose [2,3] . In this work, we developed an easy method to produce composites with homogeneous size distribution of silver nanoparticles. This structure provides a robust, highlyporous and self-sustaining structure with large surface area, which is essential to facilitate incorporation of the silver ions in the metallization process to give a high silver loading content. Furthermore, the in situ direct metallization method was adopted to obtain a high loading content and strong bonding force of silver nanoparticles on the BC surface, thereby avoiding the Ag + contamination problem. The combination of the antibacterial efficacy of the silver nanoparticles and the biodegradability of the BC fibers in the composite fibers can make them practical for use as antimicrobial membranes in medical applications. Experimental MaterialsThe bacterial cellulose (BC) membranes were supplied by Fibrocel -Produtos Biotecnológicos Ltda. (Ibiporã, Brazil). Polyvinylpyrrolidone (PVP, MW = 29,000), gelatin,

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Evaluation of Bactericidal Action of 2-vinylpiridine Copolymers Containing Quaternary Ammonium Groups and Their Charge Transfer Complexes

Valle¹,

Marques²,

Costa³

et al. 2013

Polímeros

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Abstract:We report the development of copolymers based on 2-vinylpyridine with different porosity degrees. The copolymers were quaternized with methyl iodide and acrylonitrile to introduce quaternary ammonium groups on pyridine units. To prepare charge transfer complexes, the unmodified copolymers and their derivatives quaternized were impregnated with iodine. The antibacterial properties of all the polymers were evaluated ranging from of the Escherichia coli strain. The unmodified copolymers did not have antibacterial activity against E.Coli suspensions. The quaternization with methyl iodine and acrylonitrile increased the biocidal performance of these copolymers, but only the copolymer with the lowest porosity modified with methyl iodine showed significant bactericidal action for all E. Coli concentrations. The 2-vinylpiridine copolymers quaternized and impregnated with iodine had higher antibacterial activity than the impregnated ones. The charge transfer complexes derived from the copolymer with the lowest porosity and highest swelling capacity in water had the best bactericidal performance.

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Preparação de copolímeros à base de 2-vinilpiridina com propriedades bactericidas

Valle¹,

Costa²,

Marques³

et al. 2011

Quím. Nova

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Recebido em 14/4/10; aceito em 17/11/10; publicado na web em 18/2/11 SYNTHESIS OF COPOLYMERS BASED ON 2-VINYLPYRIDINE WITH ANTIBACTERIAL PROPERTIES. We report the development of two copolymers based on 2-vinylpyridine, styrene and divinylbenzene (2Vpy-Sty-DVB) with different porosity degrees. The copolymers were subsequently quaternized with methyl iodide. To prepare charge transfer complexes, the unmodified copolymers and their derivatives quaternized with methyl iodine were impregnated with iodine. The antibacterial properties of the polymers were evaluated in dilutions ranging from 10 2 to 10 7 cells/mL of the auxotrophic OHd5-K12 Escherichia coli strain. It was possible to obtain materials with complete antibacterial activity even in the highest cell concentrations tested.Keywords: biocidal polymers; 2-vinylpyridine-styrene-divinylbenzene copolymers; iodine. INTRODUÇÃOO processo mais comumente empregado para desinfecção de água contaminada com bactérias e vírus nocivos, especialmente aqueles que se originam de matéria fecal, é o tratamento com agentes oxidantes fortes, mais especificamente o tratamento com cloro e substâncias que o contém. Apesar do método de cloração da água não ser oneroso, a formação de compostos orgânicos clorados, tais como trialometanos (THM), representa um risco grande para a saúde da população, visto que diversos estudos apontam que esses compostos são carcinogêni-cos. Além disso, esses compostos não sofrem degradação biológica facilmente, possibilitando bioacumulação na cadeia alimentar. 1,2Em razão da importância que a água representa para melhoria da qualidade de vida e a manutenção da saúde humana é essencial o desenvolvimento de novas tecnologias, que propiciem alternativas ao tratamento convencional de águas. Dentre os processos alternativos de desinfecção da água, em que a geração de trialometanos é evitada, é possível destacar o uso de ozônio, dióxido de cloro, além da radiação ultravioleta. [3][4][5] A ação germicida do ozônio pode ser atribuída aos radicais livres, hidroxila e hidroperóxido, produzidos pela reação com a água. Devido a sua instabilidade, o transporte e o armazenamento de ozônio são dificultados, e ele deve ser gerado in situ. A geração de ozônio in situ é um processo dispendioso, que envolve descargas elétricas de 20000 volts em ar seco. Além disso, em função desse tempo de vida curto das moléculas de ozônio, a água purificada não possui uma proteção residual que evite uma contaminação futura. Assim como o ozônio, o dióxido de cloro não pode ser estocado, já que é explosivo em elevadas concentrações. A geração de dióxido de cloro in situ acontece pela oxidação da sua forma reduzida, ClO 2 -, encontrada no sal clorito de sódio. Neste processo são gerados como subprodutos íons clorito e clorato, além de outras espécies aniônicas. A presença destas espécies na água final também tem causado problemas de saúde. A desinfecção por radiação ultravioleta é dificultada por problemas operacionais como, por exemplo, pequena profundidade do leito a ser desinfetado, além ...

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Synthesis of composite based on submicron sized silver particles hosted on microspheres of surface-functional porous crosslinked copolymer networks

et al. 2007

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Aline S. S. Valle

Preparation and antibacterial activity of silver nanoparticles impregnated in bacterial cellulose

Evaluation of Bactericidal Action of 2-vinylpiridine Copolymers Containing Quaternary Ammonium Groups and Their Charge Transfer Complexes

Preparação de copolímeros à base de 2-vinilpiridina com propriedades bactericidas

Synthesis of composite based on submicron sized silver particles hosted on microspheres of surface-functional porous crosslinked copolymer networks

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