Sorption of oxygen by glassy poly(ethyl methacrylate) at low temperatures
Autor: | B. V. Bol'shakov, V. M. Syutkin |
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Rok vydání: | 2016 |
Předmět: |
Polymers and Plastics
Chemistry Intermolecular force Kinetics Analytical chemistry chemistry.chemical_element Sorption 02 engineering and technology Atmospheric temperature range 010402 general chemistry 021001 nanoscience & nanotechnology 01 natural sciences Oxygen 0104 chemical sciences Desorption Materials Chemistry Organic chemistry Solubility 0210 nano-technology Dispersion (chemistry) |
Zdroj: | Polymer Science Series A. 58:265-275 |
ISSN: | 1555-6107 0965-545X |
DOI: | 10.1134/s0965545x16020036 |
Popis: | The solubility of molecular oxygen in glassy poly(ethyl methacrylate) at 160–308 K and a gas pressure from 50 kPa to 1.7 MPa is studied. The kinetics of desorption of O2 molecules from films in vacuum at 175 K is investigated at various initial gas concentrations in the glass. It is shown that the dependences of concentration of the dissolved oxygen on temperature and pressure may be described if the intermolecular cavities in the glass are regarded as sorption sites and if the presence of distributions over the energies of insertion of the molecules into these sites are assumed. The same values of sorption-site concentrations and insertionenergy dispersions make it possible to describe both the solubility of the gas and the dependence of the desorption kinetics of oxygen on its initial concentration in the glass. The concentration of sites does not change with temperature throughout the studied temperature range and amounts to ~3.5×1027 m–3. The function of the distribution over energies is likewise independent of temperature and the concentration of oxygen in the glass up to ~6.5×1026 m–3 (at 160 K). The dispersion of energies is ~3.9 kJ/mol. The temperature independence of the concentration of sites is explained by the fact that the sizes of cavities in the glass change very weakly at temperatures below the glass-transition temperature. |
Databáze: | OpenAIRE |
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