Add to ORKGArtificial chemistries can be used to explore the generic properties of chemical reaction networks. In order to simulate for instance scenarios of prebiotic evolution the model must be close enough to real chemistry to allow at least semi-quantitative comparisons. One example is a previously described Toy Model that represents molecules as graphs, thereby neglecting 3D space, and employs a highly simplified version of the Extended H¨uckel Theory (EHT) to compute molecular properties. Here we show how the Toy Model can be extended to multiple phases by connecting the EHT calculations with chemical thermodynamics
In accordance with the second law of thermodynamics, the Universe as a whole tends to higher entropy...
We describe a simple artificial chemistry which abstracts a small number of key features from the or...
Harnessing and then controlling combinatorial explosions in uncontrolled condensation reactions of s...
Artificial chemistries can be used to explore the generic properties of chemical reaction networks. ...
We use a Toy Model of chemistry that represents molecules in terms of usual structural formulae to g...
Large scale chemical reaction networks are a ubiquitous phenomenon, from the metabolism of living ce...
A Toy Model of an artificial chemistry that treats molecules as graphs was implemented based on a si...
Prebiotic chemistry often involves the study of complex systems of chemical reactions that form larg...
A core topic of research in prebiotic chemistry is the search for plausible synthetic routes that co...
Reaction networks are an important tool for the analysis of complex chemical reaction systems. They ...
Computational techniques are required for narrowing down the vast space of possibilities to plausibl...
To experimentally test hypotheses about the emergence of living systems from abiotic chemistry, rese...
One of the great challenges in science is determining when, where, why, and how life first arose as ...
The financial support for this work was provided by EaStCHEM and the Engineering and Physical Scienc...
The challenge of prebiotic chemistry is to trace the syntheses of life's key building blocks fr...
In accordance with the second law of thermodynamics, the Universe as a whole tends to higher entropy...
We describe a simple artificial chemistry which abstracts a small number of key features from the or...
Harnessing and then controlling combinatorial explosions in uncontrolled condensation reactions of s...
Artificial chemistries can be used to explore the generic properties of chemical reaction networks. ...
We use a Toy Model of chemistry that represents molecules in terms of usual structural formulae to g...
Large scale chemical reaction networks are a ubiquitous phenomenon, from the metabolism of living ce...
A Toy Model of an artificial chemistry that treats molecules as graphs was implemented based on a si...
Prebiotic chemistry often involves the study of complex systems of chemical reactions that form larg...
A core topic of research in prebiotic chemistry is the search for plausible synthetic routes that co...
Reaction networks are an important tool for the analysis of complex chemical reaction systems. They ...
Computational techniques are required for narrowing down the vast space of possibilities to plausibl...
To experimentally test hypotheses about the emergence of living systems from abiotic chemistry, rese...
One of the great challenges in science is determining when, where, why, and how life first arose as ...
The financial support for this work was provided by EaStCHEM and the Engineering and Physical Scienc...
The challenge of prebiotic chemistry is to trace the syntheses of life's key building blocks fr...
In accordance with the second law of thermodynamics, the Universe as a whole tends to higher entropy...
We describe a simple artificial chemistry which abstracts a small number of key features from the or...
Harnessing and then controlling combinatorial explosions in uncontrolled condensation reactions of s...