G. A. Neves scite author profile

Hydroxyapatite (HAp) is a bioceramic widely studied due to its chemical similarity with the mineral component of bones. Besides, it is biocompatible, bioactive and thermodynamically stable in the body fluid what poses it as an attractive material for a wide range of applications in the biomedical field. Several efforts have been focused on the synthesis of particles of this material aiming to the precise control of size and morphology, porosity and surface area. HAp is widely used as an implant for bone tissue regeneration, as a coating for metallic implants and in a drug-controlled release. In this sense, the objective of this review is to gather information related to HAp, providing readers with information about synthesis methods, material characteristics and their applications.

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Estudo de argilas usadas em cerâmica vermelha

Macedo

Menezes

Neves

et al. 2008

Cerâmica

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ResumoEste trabalho tem por objetivo a caracterização física e mineralógica de argilas utilizadas industrialmente para a produção de blocos cerâmicos. As argilas foram caracterizadas por meio da determinação de distribuição granulométrica, limites de Atterberg e composição química, difração de raios X, e análise térmica diferencial e gravimétrica. Foram conformados corpos de prova por extrusão. Os corpos foram queimados a 800, 900 e 1000 o C e em seguida determinou-se absorção de água e módulo de ruptura à flexão. Também foram determinadas a absorção de água e a resistência à compressão simples de blocos cerâmicos comerciais produzidos com as amostras analisadas. Pode-se observar que as amostras apresentam limites de plasticidade dentro da faixa indicada para cerâmica vermelha e que são constituídas basicamente por caulinita, quartzo, mica e feldspatos, com algumas amostras apresentando goetita e hidróxido sílico-aluminoso. Concluiu-se também que a caracterização permite estimar as argilas adequadas ou não para a produção de blocos cerâmicos. Palavras-chave: argilas, blocos cerâmicos, cerâmica vermelha, caracterização. Abstract The aim of this work was to characterize clays industrially used for the production of ceramic bricks. The clays were characterizedThe clays

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Argilas bentoníticas de Cubati, Paraíba, Brasil: Caracterização física-mineralógica

et al. 2009

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O Estado da Paraíba possui jazidas de bentonitas utilizadas comercialmente em uma vasta gama de setores tecnológicos. No entanto, esses jazimentos estão se exaurindo após dezenas de anos de exploração. Assim, este trabalho tem por objetivo a caracterização físico-mineralógica de bentonitas recentemente descobertas no município de Cubati, PB. As amostras estudadas foram secas a 60 ºC e caracterizadas por meio de fluorescência de raios X, picnometria de He, determinação da distribuição de tamanho de partículas, difração de raios X, análise térmica diferencial e gravimétrica e microscopia eletrônica de varredura. Os resultados evidenciaram que as amostras são bentonitas policatiônicas, apresentando teores de MgO, CaO e K2O semelhantes aos de outras bentonitas sul-americanas e que são constituídas por argilomineral esmectítico e por quartzo e caulinita. As amostras apresentaram frações de partículas abaixo a 2 μm variando entre 31 e 41%, estando, no entanto, em elevado estado de aglomeração.

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A Review on Chitosan’s Uses as Biomaterial: Tissue Engineering, Drug Delivery Systems and Cancer Treatment

et al. 2020

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Chitosan, derived from chitin, is a biopolymer consisting of arbitrarily distributed β-(1-4)-linked D-glucosamine and N-acetyl-D-glucosamine that exhibits outstanding properties— biocompatibility, biodegradability, non-toxicity, antibacterial activity, the capacity to form films, and chelating of metal ions. Most of these peculiar properties are attributed to the presence of free protonable amino groups along the chitosan backbone, which also gives it solubility in acidic conditions. Moreover, this biopolymer can also be physically modified, thereby presenting a variety of forms to be developed. Consequently, this polysaccharide is used in various fields, such as tissue engineering, drug delivery systems, and cancer treatment. In this sense, this review aims to gather the state-of-the-art concerning this polysaccharide when used as a biomaterial, providing information about its characteristics, chemical modifications, and applications. We present the most relevant and new information about this polysaccharide-based biomaterial’s applications in distinct fields and also the ability of chitosan and its various derivatives to selectively permeate through the cancer cell membranes and exhibit anticancer activity, and the possibility of adding several therapeutic metal ions as a strategy to improve the therapeutic potential of this polymer.

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G. A. Neves

Use of granite sawing wastes in the production of ceramic bricks and tiles

A brief review on hydroxyapatite production and use in biomedicine

Estudo de argilas usadas em cerâmica vermelha

Argilas bentoníticas de Cubati, Paraíba, Brasil: Caracterização física-mineralógica

A Review on Chitosan’s Uses as Biomaterial: Tissue Engineering, Drug Delivery Systems and Cancer Treatment

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