Computational first principles models based on density functional theory (DFT) have emerged as an important tool to address reaction mechanisms and active sites in metal nanoparticle catalysis. However, the common evaluation of potential energy surfaces for selected reaction steps contrasts with the complexity of reaction networks under operating conditions, where the interplay of adsorbate populations and competing routes at reaction conditions determine the most relevant states for catalyst activity and selectivity. Here, we discuss how the use of a multi-scale first principles approach combining DFT calculations at the atomistic level with kinetic models may be used to understand reactions catalyzed by metal nanoparticles. The potentia...
A linear-scaling algorithm based on a divide-and-conquer (DC) scheme is designed to perform large-sc...
Understanding reaction kinetics over metal-nanoparticles is central in technical catalyst design. In...
The temporal evolution at the catalyst surface is a result of an intricate interplay between all inv...
Computational first principles models based on density functional theory (DFT) have emerged as an im...
Computational first principles models based on density functional theory (DFT) have emerged as an im...
International audienceComputational first principles models based on density functional theory (DFT)...
One of the most important advances in modern theoretical surface science and catalysis research has ...
In this research kinetic modeling and first principles study of the water-gas shift (WGS) and methan...
The frontiers between homogeneous and heterogeneous catalysis are progressively disappearing. The de...
In this work we utilized quantum chemical calculations coupled with numerical and analytical models ...
The recent impetus towards preemption of runaway climate change through decarbonization of the globa...
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
Scaling relations combined with kinetic Monte Carlo simulations are used to study catalytic reaction...
Various studies on how the interfacial properties of nanocatalysts affect the catalytic reaction are...
Doctor of PhilosophyDepartment of Chemical EngineeringBin LiuEfficient and selective catalysis lies ...
A linear-scaling algorithm based on a divide-and-conquer (DC) scheme is designed to perform large-sc...
Understanding reaction kinetics over metal-nanoparticles is central in technical catalyst design. In...
The temporal evolution at the catalyst surface is a result of an intricate interplay between all inv...
Computational first principles models based on density functional theory (DFT) have emerged as an im...
Computational first principles models based on density functional theory (DFT) have emerged as an im...
International audienceComputational first principles models based on density functional theory (DFT)...
One of the most important advances in modern theoretical surface science and catalysis research has ...
In this research kinetic modeling and first principles study of the water-gas shift (WGS) and methan...
The frontiers between homogeneous and heterogeneous catalysis are progressively disappearing. The de...
In this work we utilized quantum chemical calculations coupled with numerical and analytical models ...
The recent impetus towards preemption of runaway climate change through decarbonization of the globa...
Accomplishing a first-principles modeling of heterogeneous catalysis that allows for a quantitative ...
Scaling relations combined with kinetic Monte Carlo simulations are used to study catalytic reaction...
Various studies on how the interfacial properties of nanocatalysts affect the catalytic reaction are...
Doctor of PhilosophyDepartment of Chemical EngineeringBin LiuEfficient and selective catalysis lies ...
A linear-scaling algorithm based on a divide-and-conquer (DC) scheme is designed to perform large-sc...
Understanding reaction kinetics over metal-nanoparticles is central in technical catalyst design. In...
The temporal evolution at the catalyst surface is a result of an intricate interplay between all inv...