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Analytical formulas for the concentration distributions have been derived for all current densities that can pass through the RDE system for any rotation frequency.
Analytical expressions for substrate concentrations, product concentration and corresponding current response have been derived for all values of parameters using Homotopy perturbation method.
Approximate analytical formulas have been derived for all characteristics of this system under steady state conditions at the uniformly accessible electrode surface.
Approximate analytical formulas have been derived for all characteristics of the system based on the condition of either a relatively weak current or a thin kinetic layer compared to the diffusion one.
Simple analytical expressions for the concentration of oxidized mediator, oxygen and substrate and the corresponding current-potential response have been derived for all the values of reaction diffusion parameters using the new homotopy perturbation method (NHPM .The current-potential response in osmium redox polymer mediated glucose oxidase enzyme electrodes is discussed.
In the same way, scores have been derived for all the themes.
Similar(53)
First, an explicit formula is derived for all natural frequencies at the long wavelength limit.
In particular, the buckling factor is derived for all boundary conditions.
The completely new equations of absorbance change vs time are derived for all spectrally monitored species involved in electrode processes.
The linear-quadratic-Gaussian (LQG) system is treated first, and analytical closed-form probability densities are derived for all variables of interest.
In particular, a mathematical representation based upon tensor invariants is derived for all the laminate stiffness matrices (basic and higher-order stiffness terms).
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Justyna Jupowicz-Kozak
CEO of Professional Science Editing for Scientists @ prosciediting.com