Phenomena in homogeneous chemical systems far from equilibrium

Pacault, A.; Hanusse, P.; Kepper, P. De; Vidal, C.; Boissonade, J.

doi:10.1021/ar50108a003

Cited by 60 publications

(18 citation statements)

References 35 publications

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“…One of the major breakthroughs in the study of chemical oscillators was the introduction of the continuous flow stirred tank reactor [34] as a tool for keeping the system far from equilibrium. By combining the CSTR with a systematic design approach [35] based on a simple, generic, mathematical model [36], it became possible in the 1980s to design literally dozens of new chemical oscillators.…”

Section: Discussionmentioning

confidence: 99%

Turing structures. Progress toward a room temperature, closed system

Epstein

Lengyel

1995

Physica D: Nonlinear Phenomena

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There are many parallels between the study of temporal oscillation in homogeneous chemical systems and of Turing patterns in reaction-diffusion systems. We discuss recent progress toward constructing a system that displays Turing structures under conditions suitable for a lecture demonstration. Such a system would play a role similar to that of the Belousov-Zhabotinsky oscillating reaction. We examine the prototype chlorite-iodide-malonic acid and related reactions, mathematical models, methods for designing new reactions that exhibit Turing structures and an approach to generating Turing structures in a closed system.

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Section: Discussionmentioning

confidence: 99%

Turing structures. Progress toward a room temperature, closed system

Epstein

Lengyel

1995

Physica D: Nonlinear Phenomena

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“…The repetitions of this complex cycle of processes are the underlying basis for the visible color oscillations. Specific relationships between the rates of the individual steps contribute to the persistence of the oscillatory behavior, and well-defined mathematical bounds have been derived as prerequisites for oscillations (Pacault, Hanusse, DeKepper, Vidal, & Beissonade, 1976). As this mechanism demonstrates, these oscillations occur in a parallel sense to the inexorable conversion of reactants to products, and, upon completion of the latter process (Le., the attainment of final chemical equilibrium), they must cease.…”

Section: Mechanisms Of the Belousov-zhabotinsky Reactionmentioning

confidence: 99%

Metaphors of Consciousness

Valle¹,

Eckartsberg²

1981

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“…The phenomena appears over a range of flow rates near a point of transition between oscillatory and nonoscillatory behavior, and it is common to all flow systems studied (see Table II). Boissonade (1976) has analyzed a flow system model that shows composite double oscillation. ] illustrates composite double oscillation and its sensitivity to flow rate.…”

Section: G Composite Double Oscillationsmentioning

confidence: 99%

Chemistry of Inorganic Systems Exhibiting Nonmonotonic Behavior

Field

1978

Theoretical Chemistry

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Phenomena in homogeneous chemical systems far from equilibrium

Cited by 60 publications

References 35 publications

Turing structures. Progress toward a room temperature, closed system

Turing structures. Progress toward a room temperature, closed system

Metaphors of Consciousness

Chemistry of Inorganic Systems Exhibiting Nonmonotonic Behavior

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