Electronic structure calculations have emerged as a key contributor in modern heterogeneous catalysis research, though their application in chemical reaction engineering remains largely limited to academia. This perspective aims at encouraging the judicious use of first-principles kinetic models in industrial settings based on a critical discussion of present-day best practices, identifying existing gaps, and defining where further progress is needed
Catalysis describes the acceleration of a chemical reaction by means of a substance that is itself n...
Process simulation represents an important tool for plant design and optimization, either applied to...
The validity of first order kinetic approximation in heterogeneous catalysis has been evaluated by u...
Electronic structure calculations have emerged as a key contributor in modern heterogeneous catalysi...
Catalysis is a multibillion dollar industry, with over 80% of industrial processes involving a catal...
Kinetic Monte Carlo (KMC) simulations in combination with first-principles (1p)-based calculations a...
Kinetic Monte Carlo (KMC) simulations in combination with first-principles-based calculations are ra...
First-principles-based multiscale models are ever more successful in addressing the wide range of le...
Heterogeneous catalysis is one of the fields of modern technology, where the application of complex ...
Heterogeneous catalysis has developed over the past two centuries as a technology driven by the need...
The perfect catalyst: The advances towards the ability to design a catalyst from first principles ar...
Spanning the full range from fundamentals of kinetics and heterogeneous catalysis via modern experim...
This chapter illustrates recent advances in computational catalysis by highlighting recent theoretic...
An increased synergy between experimental and theoretical investigations in heterogeneous catalysis ...
Catalysis is an alternative way for reaching an immediate formation of a product, because of a lower...
Catalysis describes the acceleration of a chemical reaction by means of a substance that is itself n...
Process simulation represents an important tool for plant design and optimization, either applied to...
The validity of first order kinetic approximation in heterogeneous catalysis has been evaluated by u...
Electronic structure calculations have emerged as a key contributor in modern heterogeneous catalysi...
Catalysis is a multibillion dollar industry, with over 80% of industrial processes involving a catal...
Kinetic Monte Carlo (KMC) simulations in combination with first-principles (1p)-based calculations a...
Kinetic Monte Carlo (KMC) simulations in combination with first-principles-based calculations are ra...
First-principles-based multiscale models are ever more successful in addressing the wide range of le...
Heterogeneous catalysis is one of the fields of modern technology, where the application of complex ...
Heterogeneous catalysis has developed over the past two centuries as a technology driven by the need...
The perfect catalyst: The advances towards the ability to design a catalyst from first principles ar...
Spanning the full range from fundamentals of kinetics and heterogeneous catalysis via modern experim...
This chapter illustrates recent advances in computational catalysis by highlighting recent theoretic...
An increased synergy between experimental and theoretical investigations in heterogeneous catalysis ...
Catalysis is an alternative way for reaching an immediate formation of a product, because of a lower...
Catalysis describes the acceleration of a chemical reaction by means of a substance that is itself n...
Process simulation represents an important tool for plant design and optimization, either applied to...
The validity of first order kinetic approximation in heterogeneous catalysis has been evaluated by u...