Outside thermodynamic equilibrium , outcomes of self???assembly can be dictated not by energy but by the energy dissipation rate. Remarkably, non???equilibrium self???assembly can lead to both low??? and high???dissipation structures. The latter, thermodynamically more wasteful structures are exponentially less probable with increasing dissipation rate. This dependence is quantified in a Boltzmann???like relation for non???equilibrium systems
In the absence of external driving, a system exposed to thermal fluctuations will relax to equilibri...
Thermodynamic equilibrium is a strong constraint on the statistics of physical systems that has led ...
Whether by virtue of being prepared in a slowly relaxing, high-free energy initial condition, or bec...
Self-assembly is a process in which components in a system organize themselves into structures and p...
Near equilibrium, thermodynamic intuition suggests that fast, irreversible processes will dissipate ...
This article applies the thermocontextual interpretation (TCI) to open dissipative systems. TCI is a...
When systems are far from equilibrium, the temperature, the entropy and the thermodynamic entropy pr...
Dynamic self-assembly (DySA) outside of thermodynamic equilibrium underlies many forms of adaptive a...
Despite its prevalence in biological systems and its promise as a route to adaptive and/or self-heal...
Far from equilibrium behavior is ubiquitous. Indeed most of the processes that characterize energy f...
Supramolecular polymerization has been traditionally focused on the thermodynamic equilibrium state,...
Work, by dissipative structures (DS), imposes delay on energy gradientdegradation. It diverts energy...
After formulating a nonequilibrium thermodynamics for open chemical reaction networks, the theory wi...
Dissipative accounts of structure formation show that the self-organisation of complex structures is...
2Nature extensively exploits high-energy transient self-assembly structures that are able to perform...
In the absence of external driving, a system exposed to thermal fluctuations will relax to equilibri...
Thermodynamic equilibrium is a strong constraint on the statistics of physical systems that has led ...
Whether by virtue of being prepared in a slowly relaxing, high-free energy initial condition, or bec...
Self-assembly is a process in which components in a system organize themselves into structures and p...
Near equilibrium, thermodynamic intuition suggests that fast, irreversible processes will dissipate ...
This article applies the thermocontextual interpretation (TCI) to open dissipative systems. TCI is a...
When systems are far from equilibrium, the temperature, the entropy and the thermodynamic entropy pr...
Dynamic self-assembly (DySA) outside of thermodynamic equilibrium underlies many forms of adaptive a...
Despite its prevalence in biological systems and its promise as a route to adaptive and/or self-heal...
Far from equilibrium behavior is ubiquitous. Indeed most of the processes that characterize energy f...
Supramolecular polymerization has been traditionally focused on the thermodynamic equilibrium state,...
Work, by dissipative structures (DS), imposes delay on energy gradientdegradation. It diverts energy...
After formulating a nonequilibrium thermodynamics for open chemical reaction networks, the theory wi...
Dissipative accounts of structure formation show that the self-organisation of complex structures is...
2Nature extensively exploits high-energy transient self-assembly structures that are able to perform...
In the absence of external driving, a system exposed to thermal fluctuations will relax to equilibri...
Thermodynamic equilibrium is a strong constraint on the statistics of physical systems that has led ...
Whether by virtue of being prepared in a slowly relaxing, high-free energy initial condition, or bec...