| ELSIM—a problem-solving environment for electrochemical kinetic simulations. Version 3.0-solution of governing equations associated with interfacial species, independent of … LŁK Bieniasz Computers & chemistry 21 (1), 1-12, 1997 | 81 | 1997 |
| Modelling electroanalytical experiments by the integral equation method LK Bieniasz Springer, 2015 | 61 | 2015 |
| Recent developments in digital simulation of electroanalytical experiments L Bieniasz, D Britz Polish journal of chemistry 78 (9), 1195-1219, 2004 | 59 | 2004 |
| Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations: Part 5. A finite-difference, adaptive space/time grid strategy based on a … LK Bieniasz Journal of Electroanalytical Chemistry 481 (2), 115-133, 2000 | 59 | 2000 |
| ELSIM—A user-friendly PC program for electrochemical kinetic simulations. Version 1.0—Solution of integral equations for linear scan and cyclic voltammetry LK Bieniasz Computers & chemistry 16 (1), 11-14, 1992 | 52 | 1992 |
| Towards computational electrochemistry-a kineticist’s perspective LK Bieniasz Modern Aspects of Electrochemistry, 135-195, 2002 | 50 | 2002 |
| Finite-difference electrochemical kinetic simulations using the Rosenbrock time integration scheme LK Bieniasz Journal of Electroanalytical Chemistry 469 (2), 97-115, 1999 | 50 | 1999 |
| Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations: Part 1. Introductory exploration of the finite-difference adaptive moving … LK Bieniasz Journal of electroanalytical chemistry 360 (1-2), 119-138, 1993 | 50 | 1993 |
| A reaction compiler for electrochemical kinetics LK Bieniasz Computers & chemistry 20 (4), 403-418, 1996 | 41 | 1996 |
| Automatic derivation of the governing equations that describe a transient electrochemical experiment, given a reaction mechanism of arbitrary complexity. Part 2. Governing … LK Bieniasz Journal of Electroanalytical Chemistry 406 (1-2), 45-52, 1996 | 40 | 1996 |
| ELSIM—A PC program for electrochemical kinetic simulations. Version 2.0—solution of the sets of kinetic partial differential equations in one-dimensional geometry, using … LK Bieniasz Computers & chemistry 17 (4), 355-368, 1993 | 40 | 1993 |
| Automatic derivation of the governing equations that describe a transient electrochemical experiment, given a reaction mechanism of arbitrary complexity. Part 1. Problem … LK Bieniasz Journal of Electroanalytical Chemistry 406 (1-2), 33-43, 1996 | 38 | 1996 |
| Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations: Part 2. An improved finite-difference adaptive moving grid technique for one … LK Bieniasz Journal of Electroanalytical Chemistry 374 (1-2), 1-22, 1994 | 38 | 1994 |
| An adaptive Huber method with local error control, for the numerical solution of the first kind Abel integral equations LK Bieniasz Computing 83 (1), 25-39, 2008 | 37 | 2008 |
| The von Neumann stability of finite-difference algorithms for the electrochemical kinetic simulation of diffusion coupled with homogeneous reactions LK Bieniasz Journal of Electroanalytical Chemistry 345 (1-2), 13-25, 1993 | 37 | 1993 |
| Use of sensitivity analysis methods in the modelling of electrochemical transients: Part 3. Statistical error/uncertainty propagation in simulation and in nonlinear least … LK Bieniasz, B Speiser Journal of Electroanalytical Chemistry 458 (1-2), 209-229, 1998 | 33 | 1998 |
| Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations: Part 4: The adaptive moving-grid solution of one-dimensional fast homogeneous … LK Bieniasz Journal of Electroanalytical Chemistry 379 (1-2), 71-87, 1994 | 33 | 1994 |
| Use of dynamically adaptive grid techniques for the solution of electrochemical kinetic equations: Part 3. An adaptive moving grid—adaptive time step strategy for problems … LK Bieniasz Journal of Electroanalytical Chemistry 374 (1-2), 23-35, 1994 | 33 | 1994 |
| Kinetics of the oxygen electrode reaction in molten Li+ Na carbonate eutectic: Part 3. Quantitative analysis of the linear scan voltammetric curves for the first reduction … P Tomczyk, LK Bieniasz Journal of electroanalytical chemistry and interfacial electrochemistry 304 …, 1991 | 31 | 1991 |
| An adaptive Huber method for weakly singular second kind Volterra integral equations with non-linear dependencies between unknowns and their integrals LK Bieniasz Computing 87 (1), 35-54, 2010 | 29 | 2010 |
