Dr. Lakshmanan Rajendran, HOD
Dr. Lakshmanan Rajendran, HOD
Professor of Mathematics, AMET University
Dirección de correo verificada de ametuniv.ac.in - Página principal
TítuloCitado porAño
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
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
Mathematical modeling of diffusion and kinetics in amperometric immobilized enzyme electrodes
S Loghambal, L Rajendran
Electrochimica acta 55 (18), 5230-5238, 2010
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
Analytical solution of steady state current at a microdisk biosensor
A Eswari, L Rajendran
Journal of Electroanalytical Chemistry 641 (1-2), 35-44, 2010
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
Plant Binary Vectors of Ti Plasmid in Agrobacterium tumefaciens with a Broad Host-Range Replicon of pRK2, pRi, pSa or pVS1
N Murai
Scientific Research Publishing, 2013
Mathematical modeling in amperometric oxidase enzyme–membrane electrodes
S Loghambal, L Rajendran
Journal of Membrane Science 373 (1-2), 20-28, 2011
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
A two-point Pade approximation for the non-steady-state chronoamperometric current at ultramicrodisc electrodes
L Rajendran, MV Sangaranarayanan
Journal of Electroanalytical Chemistry 392 (1-2), 75-78, 1995
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
Analysis of positive feedback currents at the scanning electrochemical microscope
L Rajendran, SP Ananthi
Journal of Electroanalytical Chemistry 561, 113-118, 2004
Theories of ultramicrodisc electrodes
CA Basha, L Rajendran
Int. J. Electrochem. Sci 1, 268-282, 2006
EChem++–an object oriented problem solving environment for electrochemistry. Part 1. A C++ class collection for electrochemical excitation functions
K Ludwig, L Rajendran, B Speiser
Journal of Electroanalytical Chemistry 568, 203-214, 2004
Analytical solution of steady-state current an enzyme-modified microcylinder electrodes
A Eswari, L Rajendran
Journal of Electroanalytical Chemistry 648 (1), 36-46, 2010
Analytical solution of non-isothermal diffusion-reaction processes and effectiveness factors
V Ananthaswamy, L Rajendran
ISRN Physical Chemistry 2013, 2013
A comparison of diffusion-limited currents at microelectrodes of various geometries for EC′ reactions
R Senthamarai, L Rajendran
Electrochimica acta 53 (10), 3566-3578, 2008
Diffusion at ultramicroelectrodes: chronoamperometric current response using Padé approximation
L Rajendran, MV Sangaranarayanan
The Journal of Physical Chemistry B 101 (23), 4583-4587, 1997
Theoretical analysis of intrinsic reaction kinetics and the behavior of immobilized enzymes system for steady-state conditions
T Praveen, P Valencia, L Rajendran
Biochemical engineering journal 91, 129-139, 2014
Analytical solution of two-point non-linear boundary value problems in a porous catalyst particles
V Ananthaswamy, L Rajendran
International Journal of Mathematical Archive 3 (3), 810-821, 2012
El sistema no puede realizar la operación en estos momentos. Inténtalo de nuevo más tarde.
Artículos 1–20