Spatially Resolved Anomalous Kinetics of a Catalytic Reaction: Enzymatic Glucose Oxidation in Capillary Spaces

A reaction involving the catalytic oxidation of glucose by the enzyme glucose oxidase is employed as a first spatially resolved experimental realization of a nonclassical A + C → C + Products chemical reaction. This heterogeneous kinetics experiment models the operation of optical glucose sensors. O...

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Veröffentlicht in:	The journal of physical chemistry. B 1997-10, Vol.101 (40), p.7881-7884
Hauptverfasser:	Lin, Anna L, Feldman, Mark S, Kopelman, Raoul
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Sprache:	eng
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container_title	The journal of physical chemistry. B
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creator	Lin, Anna L Feldman, Mark S Kopelman, Raoul
description	A reaction involving the catalytic oxidation of glucose by the enzyme glucose oxidase is employed as a first spatially resolved experimental realization of a nonclassical A + C → C + Products chemical reaction. This heterogeneous kinetics experiment models the operation of optical glucose sensors. One-dimensional nonclassical reaction kinetics, manifested in anomalous rate laws, are observed. The time evolution of the density gradient of O2 in the zone near the catalytic trap was monitored. The temporal dependence of the growth of this depletion zone M, predicted to scale as t 1/2, was measured to be M ∼ t 0.50±0.05. This time dependence of the growth in M is directly proportional to the anomalous, time-dependent, reaction rate coefficient.
doi_str_mv	10.1021/jp9722216
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title	Spatially Resolved Anomalous Kinetics of a Catalytic Reaction: Enzymatic Glucose Oxidation in Capillary Spaces
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