Irving R. Epstein
Irving R. Epstein
Professor of Chemistry, Brandeis University
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An introduction to nonlinear chemical dynamics: oscillations, waves, patterns, and chaos
IR Epstein, JA Pojman
Oxford university press, 1998
Modeling of turing structures in the chlorite—iodide—malonic acid—starch reaction system
I Lengyel, IR Epstein
Science 251 (4994), 650-652, 1991
Nonlinear chemical dynamics: oscillations, patterns, and chaos
IR Epstein, K Showalter
The Journal of Physical Chemistry 100 (31), 13132-13147, 1996
Systematic design of chemical oscillators. Part 13. Complex periodic and aperiodic oscillation in the chlorite-thiosulfate reaction
M Orban, IR Epstein
The Journal of Physical Chemistry 86 (20), 3907-3910, 1982
A chemical approach to designing Turing patterns in reaction-diffusion systems.
I Lengyel, IR Epstein
Proceedings of the National Academy of Sciences 89 (9), 3977-3979, 1992
Changing the culture of science education at research universities
WA Anderson, U Banerjee, CL Drennan, SCR Elgin, IR Epstein, ...
Science 331 (6014), 152-153, 2011
Oscillatory cluster patterns in a homogeneous chemical system with global feedback
VK Vanag, L Yang, M Dolnik, AM Zhabotinsky, IR Epstein
Nature 406 (6794), 389-391, 2000
Pattern formation in a tunable medium: The Belousov-Zhabotinsky reaction in an aerosol OT microemulsion
VK Vanag, IR Epstein
Physical review letters 87 (22), 228301, 2001
Inwardly rotating spiral waves in a reaction-diffusion system
VK Vanag, IR Epstein
Science 294 (5543), 835-837, 2001
Cross-diffusion and pattern formation in reaction–diffusion systems
VK Vanag, IR Epstein
Physical Chemistry Chemical Physics 11 (6), 897-912, 2009
Experimental and theoretical studies of a coupled chemical oscillator: phase death, multistability and in-phase and out-of-phase entrainment
MF Crowley, IR Epstein
The Journal of Physical Chemistry 93 (6), 2496-2502, 1989
Cooperative and non-cooperative binding of large ligands to a finite one-dimensional lattice: a model for ligand-ougonucleotide interactions
IR Epstein
Biophysical chemistry 8 (4), 327-339, 1978
Testing Turing’s theory of morphogenesis in chemical cells
N Tompkins, N Li, C Girabawe, M Heymann, GB Ermentrout, IR Epstein, ...
Proceedings of the National Academy of Sciences 111 (12), 4397-4402, 2014
Convective effects on chemical waves. 1. Mechanisms and stability criteria
JA Pojman, IR Epstein
Journal of Physical Chemistry 94 (12), 4966-4972, 1990
Oscillating chemical reactions
IR Epstein, K Kustin, P De Kepper, M Orbán
Scientific American 248 (3), 112-123, 1983
Reaction–diffusion processes at the nano-and microscales
IR Epstein, B Xu
Nature nanotechnology 11 (4), 312-319, 2016
Experimental and modeling study of oscillations in the chlorine dioxide-iodine-malonic acid reaction
I Lengyel, G Rabai, IR Epstein
Journal of the American Chemical Society 112 (25), 9104-9110, 1990
Systematic design of chemical oscillators. Part 8. Batch oscillations and spatial wave patterns in chlorite oscillating systems
P De Kepper, IR Epstein, K Kustin, M Orban
The Journal of Physical Chemistry 86 (2), 170-171, 1982
Optimization of robustness and connectivity in complex networks
B Shargel, H Sayama, IR Epstein, Y Bar-Yam
Physical review letters 90 (6), 068701, 2003
Nonlinear chemical dynamics
F Sagués, IR Epstein
Dalton transactions, 1201-1217, 2003
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