Pseudomecânica: partículas de spins inteiros, semi-inteiros e fracionários

Pós-graduação em Física - IFT

Quantização de partículas com spin

Pós-graduação em Física - IFT

Segmentação interativa de imagens utilizando competição e cooperação entre partículas

Pós-graduação em Ciência da Computação - IBILCE

Nanoencapsulação de compostos de rutênio, análise de sua atividade anti - Mycobacterium tuberculosis e biodisponibilidade oral

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Nanoencapsulação de compostos de rutênio, análise de sua atividade anti - Mycobacterium tuberculosis e biodisponibilidade oral

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Elaboration and Characterization of Nano-Biocomposites Based on Plasticized Poly(Hydroxybutyrate-Co-Hydroxyvalerate) with Organo-Modified Montmorillonite

Nano-biocomposites based on a biodegradable bacterial copolyester, poly(hydroxybutyrate-co-hydroxyvalerate), have been elaborated with an organo-modified montmorillonite (OMMT) clay as nanofiller, and acetyl tributyl citrate as plasticizer. The corresponding (nano)structures, thermal and mechanical properties, permeability, and biodegradability have been determined. Polyhydroxyalkanoates are very thermal sensitive then to follow the degradation the corresponding matrices have been analyzed by size exclusion chromatography. The results indicate that the addition of the plasticizer decreases the thermo-mechanical degradation, during the extrusion. These nano-biocomposites show an intercalated/exfoliated structure with good mechanical and barrier properties, and an appropriated biodegradation kinetic. Intending to understand the changes in the thermal properties, the nano-biocomposites were characterized by thermal gravimetric analysis and differential scanning calorimetry. The presence of the OMMT clay did not influence significantly the transition temperatures. However, the filler not only acted as a nucleating agent which enhanced the crystallization, but also as a thermal barrier, improving the thermal stability of the biopolymer. The results indicated that the addition of the plasticizer reduces the glass transition temperature and the crystalline melting temperature. The plasticizer acts as a processing aid and increases the processing temperature range (lower melting temperature).

Impact of experimental Nano-HAP pastes on bovine enamel and dentin submitted to a pH cycling model

This in vitro study evaluated the preventive potential of experimental pastes containing 10% and 20% hydroxyapatite nanoparticles (Nano-HAP), with or without fluoride, on dental demineralization. Bovine enamel (n=15) and root dentin (n=15) specimens were divided into 9 groups according to their surface hardness: control (without treatment), 20 Nanop paste (20% HAP), 20 Nanop paste plus (20% HAP + 0.2% NaF), 10 Nanop paste (10% HAP), 10 Nanop paste plus (10% HAP + 0.2% NaF), placebo paste (without fluoride and HAP), fluoride paste (0.2% NaF), MI paste (CPP-ACP, casein phosphopeptide-amorphous calcium phosphate), and MI paste plus (CPP-ACP + 0.2% NaF). Both MI pastes were included as commercial control products containing calcium phosphate. The specimens were treated with the pastes twice a day (1 min), before and after demineralization. The specimens were subjected to a pH-cycling model (demineralization–6-8 h/ remineralization-16-18 h a day) for 7 days. The dental subsurface demineralization was analyzed using cross-sectional hardness (kgf/mm 2 , depth 10-220 µm). Data were tested using repeated-measures two-way ANOVA and Bonferroni's test (p<0.05). The only treatment able to reduce the loss of enamel and dentin subsurface hardness was fluoride paste (0.2% NaF), which differed significantly from the control at 30- and 50-µm depth (p<0.0001). The other treatments were not different from each other or compared with the control. The experimental Nanop pastes, regardless of the addition of fluoride, were unable to reduce dental demineralization in vitro.

Estimativas de taxas de sedimentação utilizando as partículas esferoidais carbonosas(SCPS) e eventos de ocupação humana na região da zona costeira Amazônica, Brasil

A queima de combustíveis fósseis é uma das atividades antrópicas mais importantes desde períodos remotos até os dias atuais. Assim, o estudo de indicadores de processos de combustão, em colunas sedimentares, possibilita estabelecer o histórico dos eventos de ocupação humana em uma região. As partículas esferoidais carbonosas (do inglês, Spheroidal Carbonaceous Particles, SCPs) são formadas de carbono elementar e geradas nos processos de queima de combustíveis fósseis. São partículas quimicamente estáveis e resistentes, não susceptíveis a alterações pósdeposicionais e degradação. Devido à ausência de fontes naturais, são associadas à deposição atmosférica de material antrópico. Assim, os registros dessas partículas possibilitam a associação com os principais eventos antrópicos. As principais variações na concentração das SCPs ao longo de um perfil vertical em conjunto com a data de ocorrência dos eventos de ocupação humana e industrial numa região podem ser utilizadas para estimar as taxas de sedimentação, servindo de subsidio para a obtenção um modelo geocronológico local.

Selección de sustrato de la Holothuria tubulosa en función del tamaño de las partículas

Holothuria tubulosa, cuando la concentración de materia orgánica es constante en el sedimento, muestra una clara preferencia por ambientes con arenas conformadas mayoritariamente por partículas gruesas. Esta tendencia a permanecer más tiempo en estos ambientes se corresponde igualmente con la composición granulométrica de sus excrementos, principalmente conformados por partículas propias de arenas gruesas o medias. Este patrón de selección positiva hacia un determinado grosor de sedimentos contrasta con la composición de las excreciones cuando estos animales se han alimentado en su medio natural. ABSTRACT: Holothuria tubulosa, when the rate of organic matter in the sediments is a constant, shows a clear preference to stay in sandy environments conformed by thick particles. This tendency to pass more time in these environments is also corresponded with the granulometric composition of its excrements, mainly constituted by particles of thick or medium sized sands. This positive selection pattern toward a specific size of the sediment grains contrast with the size composition of the excretions when this animals feed at their natural habitat.