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Behavior of freezable bound water in the bacterial cellulose produced by Acetobacter xylinum: an approach using thermoporosimetry.
- Source :
-
AAPS PharmSciTech [AAPS PharmSciTech] 2008; Vol. 9 (2), pp. 701-7. Date of Electronic Publication: 2008 Jun 04. - Publication Year :
- 2008
-
Abstract
- The aim of the study is to examine thermal behavior of water within reticulated structure of bacterial cellulose (BC) films by sub-ambient differential scanning calorimetry (DSC). BC films with different carbon source, either manitol (BC (a)) or glycerol (BC (b)), were produced by Acetobacter xylinum using Hestrin and Shramm culture medium under static condition at 30 +/- 0.2 degrees C for 3 days. BC samples were characterized by electron scanning microscopy and X-ray diffraction spectroscopy. The pore analysis was done by B.H.J. nitrogen adsorption. The pre-treated with 100% relative humidity, at 30.0 +/- 0.2 degrees C for 7 days samples were subjected to a between 25 and -150 degrees C-cooling-heating cycle of DSC at 5.00 degrees C/min rate. The pre-treated samples were also hydrated by adding 1 mul of water and thermally run with identical conditions. It is observed that cellulose fibrils of BC (a) were thinner and reticulated to form slightly smaller porosity than those of BC (b). They exhibited slightly but non-significantly different crystalline features. The freezable bound water behaved as a water confinement within pores rather than a solvent of polymer which is possible to use thermoporosimetry based on Gibb-Thomson equation to approach pore structure of BC. In comparison with nitrogen adsorption, it was found that thermoporosimetry underestimated the BC porosity, i.e., the mean diameters of 23.0 nm vs. 27.8 nm and 27.9 nm vs. 33.9 nm for BC (a) and BC (b), respectively, by thermoporosimetry vs. B.H.J. nitrogen adsorption. It may be due to large non-freezable water fraction interacting with cellulose, and the validity of pore range based on thermodynamic assumptions of Gibb-Thomson theory.
- Subjects :
- Adsorption
Cellulose chemistry
Freezing
Glycerol metabolism
Mannitol metabolism
Microscopy, Electron, Scanning
Models, Chemical
Nitrogen chemistry
Porosity
Reproducibility of Results
Thermodynamics
Water chemistry
X-Ray Diffraction
Calorimetry, Differential Scanning
Cellulose biosynthesis
Gluconacetobacter xylinus metabolism
Water metabolism
Subjects
Details
- Language :
- English
- ISSN :
- 1530-9932
- Volume :
- 9
- Issue :
- 2
- Database :
- MEDLINE
- Journal :
- AAPS PharmSciTech
- Publication Type :
- Academic Journal
- Accession number :
- 18523890
- Full Text :
- https://doi.org/10.1208/s12249-008-9104-2