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Dr. Lakshmanan Rajendran, HOD
Dr. Lakshmanan Rajendran, HOD
Professor of Mathematics, AMET University
Verified email at ametuniv.ac.in - Homepage
Title
Cited by
Cited by
Year
Mathematical modeling of amperometric and potentiometric biosensors and system of non-linear equations–Homotopy perturbation approach
A Meena, L Rajendran
Journal of Electroanalytical Chemistry 644 (1), 50-59, 2010
1092010
Diffusion at ultramicro disk electrodes: chronoamperometric current for steady-state EC ‘reaction using scattering analogue techniques
L Rajendran, MV Sangaranarayanan
The Journal of Physical Chemistry B 103 (9), 1518-1524, 1999
671999
Application of modified wavelet and homotopy perturbation methods to nonlinear oscillation problems
MSM Selvi, L Rajendran
Applied Mathematics and Nonlinear Sciences 4 (2), 351-364, 2019
652019
A kinetic model for amperometric immobilized enzymes at planar, cylindrical and spherical electrodes: The Akbari-Ganji method
B Manimegalai, MEG Lyons, L Rajendran
Journal of Electroanalytical Chemistry 880, 114921, 2021
592021
Application of He’s variational iteration method in nonlinear boundary value problems in enzyme–substrate reaction diffusion processes: part 1. The steady-state amperometric …
G Rahamathunissa, L Rajendran
Journal of mathematical chemistry 44 (3), 849-861, 2008
592008
Mathematical modeling of diffusion and kinetics in amperometric immobilized enzyme electrodes
S Loghambal, L Rajendran
Electrochimica Acta 55 (18), 5230-5238, 2010
552010
Taylor’s series method for solving the nonlinear reaction-diffusion equation in the electroactive polymer film
RU Rani, L Rajendran
Chemical Physics Letters 754, 137573, 2020
522020
Reply to “Comments on analytical solution of amperometric enzymatic reactions based on Homotopy perturbation method,” by Ji-Huan He, Lu-Feng Mo [Electrochim. Acta (2013)]
L Rajendran, S Anitha
Electrochimica Acta, 474-476, 2013
502013
Mathematical modeling in amperometric oxidase enzyme–membrane electrodes
S Loghambal, L Rajendran
Journal of Membrane Science 373 (1-2), 20-28, 2011
502011
Mathematical modelling of enzyme kinetics reaction mechanisms and analytical solutions of non-linear reaction equations
A Meena, A Eswari, L Rajendran
Journal of mathematical chemistry 48 (2), 179-186, 2010
452010
Solution of steady-state substrate concentration in the action of biosensor response at mixed enzyme kinetics
P Manimozhi, A Subbiah, L Rajendran
Sensors and Actuators B: Chemical 147 (1), 290-297, 2010
452010
Solving nonlinear reaction–diffusion problem in electrostatic interaction with reaction-generated pH change on the kinetics of immobilized enzyme systems using Taylor series method
S Vinolyn Sylvia, R Joy Salomi, L Rajendran, M Abukhaled
Journal of Mathematical Chemistry 59, 1332-1347, 2021
442021
Steady-State substrate and product concentrations for non-michaelis-menten kinetics in an amperometric biosensor–hyperbolic function and padéapproximants method
K Nirmala, B Manimegalai, L Rajendran
International Journal of Electrochemical Science 15 (6), 5682-5697, 2020
442020
New analytical method for solving nonlinear equation in rotating disk electrodes for second-order ECE reactions
J Visuvasam, A Meena, L Rajendran
Journal of Electroanalytical Chemistry 869, 114106, 2020
412020
Analytical solution of steady state current at a microdisk biosensor
A Eswari, L Rajendran
Journal of Electroanalytical Chemistry 641 (1-2), 35-44, 2010
412010
Effect of pyridoxine supplementation on recurrent stone formers.
MS Murthy, S Farooqui, HS Talwar, SK Thind, R Nath, L Rajendran, ...
International Journal of Clinical Pharmacology, Therapy, and Toxicology 20 …, 1982
391982
Steady-state current in product inhibition kinetics in an amperometric biosensor: Adomian decomposition and Taylor series method
RU Rani, L Rajendran, MEG Lyons
Journal of Electroanalytical Chemistry 886, 115103, 2021
382021
Analysis of the steady-state behavior of pseudo-first-order EC-catalytic mechanism at a rotating disk electrode
MC Devi, P Pirabaharan, M Abukhaled, L Rajendran
Electrochimica Acta 345, 136175, 2020
372020
Approximate analytical solution for non-linear reaction diffusion equations in a mono-enzymatic biosensor involving Michaelis–Menten kinetics
OM Kirthiga, L Rajendran
Journal of Electroanalytical Chemistry 751, 119-127, 2015
372015
Mathematical modeling of nonlinear reaction–diffusion processes in enzymatic biofuel cells
L Rajendran, M Kirthiga, E Laborda
Current Opinion in Electrochemistry 1 (1), 121-132, 2017
362017
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Articles 1–20