A novel methodology is presented for more comprehensive catalyst development by maximizing the acquired information rather than relying on statistical methods or tedious, elaborate experimental testing. Two dedicated high-throughput kinetics (HTK) set-ups are employed to achieve this objective, i.e., a screening (HTK-S) and a mechanistic investigation one (HTK-MI). While the former aims at evaluating a wide range of candidate catalysts, a limited selection is more elaborately investigated in the latter one. It allows focusing on an in-depth mechanistic analysis of the reaction mechanism resulting in so called “kinetic” descriptors and on the effect of key catalysts properties, also denoted as “catalyst” descriptors, on the catalyst performa...
Data has a central role in catalysis. The most informative datasets are large datasets with high var...
Translation of catalysts developed in academia to industrial end-users remains a challenge due to a ...
International audienceAutonomous atomistic computations are excellent tools to accelerate the develo...
A novel methodology is presented for more comprehensive catalyst development by maximizing the acqui...
The continuing development of high throughput experiments (HTE) in the field of catalysis has dramat...
Material design and synthesis are key steps in the development of catalysts. They are usua...
High-throughput experimentation in heterogeneous catalysis has recently experienced nearly exponenti...
Catalysis plays a critical role in virtually every industry. Often it is the key to making an entire...
Kinetically relevant information for heterogeneously catalysed reactions is automatically extracted ...
In this tutorial we highlight the optimal working methodology for discovering novel heterogeneous ca...
Effective assessment of catalytic performance is the foundation for the rational design and developm...
A new concept for the high-throughput screening of multiphase reactions involving molecular catalyst...
Currently, rate-based understanding of organic reactions employed in the manufacture of active pharm...
High-throughput-screening (HTS) tools and methods are used more and more, especially in industry, in...
The discovery of new or improved catalysts is often an arduous task. In several instances, empirical...
Data has a central role in catalysis. The most informative datasets are large datasets with high var...
Translation of catalysts developed in academia to industrial end-users remains a challenge due to a ...
International audienceAutonomous atomistic computations are excellent tools to accelerate the develo...
A novel methodology is presented for more comprehensive catalyst development by maximizing the acqui...
The continuing development of high throughput experiments (HTE) in the field of catalysis has dramat...
Material design and synthesis are key steps in the development of catalysts. They are usua...
High-throughput experimentation in heterogeneous catalysis has recently experienced nearly exponenti...
Catalysis plays a critical role in virtually every industry. Often it is the key to making an entire...
Kinetically relevant information for heterogeneously catalysed reactions is automatically extracted ...
In this tutorial we highlight the optimal working methodology for discovering novel heterogeneous ca...
Effective assessment of catalytic performance is the foundation for the rational design and developm...
A new concept for the high-throughput screening of multiphase reactions involving molecular catalyst...
Currently, rate-based understanding of organic reactions employed in the manufacture of active pharm...
High-throughput-screening (HTS) tools and methods are used more and more, especially in industry, in...
The discovery of new or improved catalysts is often an arduous task. In several instances, empirical...
Data has a central role in catalysis. The most informative datasets are large datasets with high var...
Translation of catalysts developed in academia to industrial end-users remains a challenge due to a ...
International audienceAutonomous atomistic computations are excellent tools to accelerate the develo...