Beta-chitin from the pens of Loligo sp.: extraction and characterization.

Recently the squid pens, a rich source of beta-chitin containing low contents of inorganic compounds, have become available in considerable amounts as a refuse of the fishery industries in Brazil. Thus, the aim of this work is to use squid pens from Loligo sanpaulensis and Loligo plei, species found in the Brazilian coast, as the raw material for the extraction of beta-chitin. The squid pens were submitted to the usual sequence of treatments used for chitin extraction - demineralization and deproteinization - but due to its low content of inorganic compounds a two-step alkaline treatment was enough to produce beta-chitin with low contents of ash (< or = 0.7%). Indeed, the low contents of ash and metals, such as Ca (< or = 10.4 ppm), Mg (< or = 2.5 ppm), Mn (< or = 3.1 ppm) and Fe (< or = 1.8 ppm), are lower than those reported in most of the papers found in the literature. Also, the beta-chitin extracted by employing only the alkaline treatment was more acetylated than the other samples prepared in this work. Regardless of the treatment employed for the extraction of the beta-chitin from the squid pens, its infrared spectra and X-ray diffraction pattern presented only minor differences, however they were clearly distinguished from commercial alpha-chitin.

Purity evaluation of carbon nanotube materials by thermogravimetric, TEM, and SEM methods.

Raw and purified samples of carbon nanotubes are considered as multicomponent systems with a distribution of carbonaceous, amorphous, multishell graphitic particles and nanotubes, together with the particles of metal compounds from the catalyst. With respect to the carbon nanotube fractions, a distribution of size, defect concentrations, and functionalities needs to be taken into account. In order to address the problem of quantitative evaluation of purity it is necessary to measure the quality and distribution of the carbon nanotubes. In this research conventional and high resolution thermogravimetry are applied to quantify different fractions of carbonaceous and metallic materials in raw and moderately purified single walled and multiwalled carbon nanotubes. For each oxidized fraction, defined by careful line shape analysis of the derivative thermogravimetric curves (DTG), the temperature of maximum rate of oxidation, the temperature range for this oxidation, related to the degree of homogeneity, and the amount of associated material is specified. The attribution of carbonaceous materials to each fraction in the distribution was based on SEM and TEM measurements and the literature. The MWNT purified sample with 1.6 wt% metal oxide was investigated by high resolution thermogravimetry (HRTG). The quantitative assessment for the carbonaceous fractions was 25 wt% of amorphous and high defect carbonaceous materials including nanotubes, 54 wt% MWNT and 20 wt% multishell graphitic particles. A qualitative evaluation of these fractions was obtained from the SEM and TEM images and supports these results. The accuracy of the values, taking into account other measurements performed on the same batch of material, should be more sensible than +/-4 wt%.