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Oxygen transmission rate curve of the pure PET and of the PET 5 Nanoter at 0 RH.

Oxygen transmission rate of polyamide 6 and polyamide 6 nanocomposites at various clay loadings. Adapted from Lan et al. .

Oxygen transmission rates as a function of the overall draw ratio, illustrating the dependence on the morphological nature of the barrier resin prior to orientation.

Oxygen transmission rates of chitosan coatings with different amounts of nanoclay.

Oxygen transmission rates of coated PP films after storage at ambient temperature.

Oxygen transmission rates of pectin films with different amounts of nanoclay. Up-scaling the Production with Roll-to-roll Pilot Line

Oxygen transport by perfluorocarbons versus hemoglobin

Oxygen transport in solids. 02 is dissociated and ionized at the reduction interface to give O2 ions, which are transferred across the solid to the oxidation interface, at which they lose the electrons to return back to 02 molecules that are released to the stream, in the mixed conducting oxide membrane, the ionic oxygen transport does not require electrodes and external circuitry to transfer the electrons to the reduction interface from the oxidation interface, because the mixed conductor oxide provides high conductivities for both oxygen ions and electrons.

Oxygen transport in solids. O2 is dissociated and ionized at the reduction interface to give ions, which are transferred across the soUd to the oxidation interface, at which they lose the electrons to return back to O2 molecules that are released to the stream, in the mixed conducting oxide membrane, the ionic oxygen transport does not require electrodes and external circuitry to transfer the electrons to the reduction interface from the oxidation interface, because the mixed conductor oxide provides high conductivities for both oxygen ions and electrons.

Oxygen transport membrane structure.

Oxygen transport paths in a blister in case of an intact coating. The resulting anodic and cathodic sites are shown. The transport paths for oxygen ate shown.

Oxygen uptake and CO2 production from glucose .

Oxygen uptake and pH change during oxidation of 6,6 -biereosol II 0.2N NaOH 2 mole equivalents alkali, 70 C.

Oxygen uptake and pH change on oxidizing 6,6 -biereosol II 2 mole equivalents alkali, 70 C.

Oxygen uptake as a function of time at 200 C.

Oxygen uptake at 90 C of com oil plus 0.10 lauryl caffeate.

Oxygen uptake by a diapausing silk moth pupa andfrozen states, showing the injurious effects of freezing

Oxygen uptake by aero-engine oil for

Oxygen Uptake by Amine Oxidase Preparations and Tyramine, Hypertensin , and Histamine

Oxygen uptake by chromatophores with different driving forces for respiratory electron transport in the dark . The numbers on the traces are the rates of oxygen uptake in pmol O2 min pmol BChl.

Oxygen uptake by intact fibroblasts. I-V Respiratory chain complexes I-V, AcCoA acetylcoenzyme A, BSA bovine serum albumin, CCP carbonyl cyanide m-chlorophenylhydrazone, Cit citrate, CoA coenzyme A, CS citrate synthase, Dig digitonin, Fo FI the ATPase components, Fum fumarase, G3P glycerol-3-phosphate, im inner membrane, Mai malate, Malo malonate, MDH malate dehydrogenase, OAA oxaloacetate, om outer membrane, PDH pyruvate dehydrogenase, Pi inorganic phosphate, Pyr pyruvate, Q ubiquinone, Rot rotenone, Succ succinate, t time

Oxygen uptake by P. rhodozyma strain UCD-67-385 and sensitivity to 1.3 mM KCN as a function of culture age. Reproduced with permission from reference 37. Copyright 1995 American Society for Biochemistjy and Molecular Biology.

Oxygen uptake by pickled 18-8 stainless steel after various times of exposure to aerated water Uhlig and Lord - Initial rapid adsorption is followed by slow uptake. Final value is 0.27 ig. O2 per cm. absolute surface for both HC1-H.S04 and HNO3-HF pickle.

Oxygen uptake by polymer-hone complexes 98

Oxygen uptake by supported clusters and vanadium oxide. Samples were pre-reduced and re-oxidized at the temperatures indicated on the abscissa. Silica-supported polyoxometalates PVl



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