Add to ORKGWe report a combined experimental/theoretical approach to studying heterogeneous gas/solid catalytic processes using low-pressure pulse response experiments achieving a controlled approach to equilibrium that combined with quantum mechanics (QM)-based computational analysis provides information needed to reconstruct the role of the different surface reaction steps. We demonstrate this approach using model catalysts for ammonia synthesis/decomposition. Polycrystalline iron and cobalt are studied via low-pressure TAP (temporal analysis of products) pulse response, with the results interpreted through reaction free energies calculated using QM on Fe-BCC(110), Fe-BCC(111), and Co-FCC(111) facets. In TAP experiments, simultaneous pulsing of ammo...
Site activity and density are two key factors in determining the overall activity of catalysts in he...
We propose and test a hierarchical high-throughput screening (HHTS) approach to catalyst design for ...
In this perspective we present recent experimental and computational progress in catalytic ammonia s...
We report a combined experimental/theoretical approach to studying heterogeneous gas/solid catalytic...
In the development of catalytic materials, a set of standard conditions is needed where the kinetic ...
The Haber-Bosch industrial process for synthesis of ammonia (NH_3) from hydrogen and nitrogen produc...
Transient pulse response experiments are used to construct rate/concentration kinetic dependencies, ...
The Haber-Bosch industrial process for synthesis of ammonia (NH<sub>3</sub>) from hydrogen and nitro...
The cleavage of the N2 triple bond on the Fe(111) surface is believed to be the rate limiting step o...
The establishment of chemical equilibria between gas and solid catalysts during the synthesis of NH3...
Hellman A, Baerends EJ, Biczysko M, et al. Predicting catalysis: Understanding ammonia synthesis fro...
Here, we give a full account of a large collaborative effort toward an atomic-scale understanding of...
In this review, we present the recent progress in ammonia synthesis research using density functiona...
Surface catalytic reactions display under low pressure conditions non-linear features such as non-st...
With the aim of improving the efficiency of the Haber-Bosch industrial process for the synthesis of ...
Site activity and density are two key factors in determining the overall activity of catalysts in he...
We propose and test a hierarchical high-throughput screening (HHTS) approach to catalyst design for ...
In this perspective we present recent experimental and computational progress in catalytic ammonia s...
We report a combined experimental/theoretical approach to studying heterogeneous gas/solid catalytic...
In the development of catalytic materials, a set of standard conditions is needed where the kinetic ...
The Haber-Bosch industrial process for synthesis of ammonia (NH_3) from hydrogen and nitrogen produc...
Transient pulse response experiments are used to construct rate/concentration kinetic dependencies, ...
The Haber-Bosch industrial process for synthesis of ammonia (NH<sub>3</sub>) from hydrogen and nitro...
The cleavage of the N2 triple bond on the Fe(111) surface is believed to be the rate limiting step o...
The establishment of chemical equilibria between gas and solid catalysts during the synthesis of NH3...
Hellman A, Baerends EJ, Biczysko M, et al. Predicting catalysis: Understanding ammonia synthesis fro...
Here, we give a full account of a large collaborative effort toward an atomic-scale understanding of...
In this review, we present the recent progress in ammonia synthesis research using density functiona...
Surface catalytic reactions display under low pressure conditions non-linear features such as non-st...
With the aim of improving the efficiency of the Haber-Bosch industrial process for the synthesis of ...
Site activity and density are two key factors in determining the overall activity of catalysts in he...
We propose and test a hierarchical high-throughput screening (HHTS) approach to catalyst design for ...
In this perspective we present recent experimental and computational progress in catalytic ammonia s...