Combinatorial and high-speed screening techniques, which have revolutionized the search for new drug molecules, are now finding broader application in the chemical and materials development areas. The ability to generate large "libraries" of samples and to evaluate their performance simultaneously reduces the time and cost per sample and enables multicomponent parameter spaces to be explored. In the area of catalyst development, the impact of this technology promises to be substantial, not only in synthesis and performance evaluation, but also for the optimization of operating parameters. In this review, the major experimental approaches are described; for heterogeneous catalysts, especially, the parallel approach proves the most useful, ra...
An integrated online screening system was developed to rapidly screen homogeneous catalysts for acti...
High-throughput experimentation in heterogeneous catalysis has recently experienced nearly exponenti...
We present here a powerful tool for high throughput screening of heterogeneous catalysts, successful...
We consider the application of high-throughput experimentation (HTE), including combinatorial method...
The present work is focused on the determination of the advantages, bottlenecks and challenges of mi...
We are presenting an effective method to prepare and test heterogeneous catalysts much faster than b...
A new method for screening split-pool combinatorial libraries for catalytic activity is described. S...
A review. For speeding-up prepn. and investigating new polymeric materials, combinatorial techniques...
A new concept for the high-throughput screening of multiphase reactions involving molecular catalyst...
A new method is described for the detection of active catalysts from libraries generated by combinat...
A review describes polymer research related to high-throughput screening development. Combinatorial ...
A review describes a strategy to construct a most efficient workflow in the field of combinatorial p...
A high-throughput screening system for secondary catalyst libraries has been developed by incorporat...
Acceleration by one to two orders of magnitude for catalyst development without much loss of informa...
An integrated online screening system was developed to rapidly screen homogeneous catalysts for acti...
High-throughput experimentation in heterogeneous catalysis has recently experienced nearly exponenti...
We present here a powerful tool for high throughput screening of heterogeneous catalysts, successful...
We consider the application of high-throughput experimentation (HTE), including combinatorial method...
The present work is focused on the determination of the advantages, bottlenecks and challenges of mi...
We are presenting an effective method to prepare and test heterogeneous catalysts much faster than b...
A new method for screening split-pool combinatorial libraries for catalytic activity is described. S...
A review. For speeding-up prepn. and investigating new polymeric materials, combinatorial techniques...
A new concept for the high-throughput screening of multiphase reactions involving molecular catalyst...
A new method is described for the detection of active catalysts from libraries generated by combinat...
A review describes polymer research related to high-throughput screening development. Combinatorial ...
A review describes a strategy to construct a most efficient workflow in the field of combinatorial p...
A high-throughput screening system for secondary catalyst libraries has been developed by incorporat...
Acceleration by one to two orders of magnitude for catalyst development without much loss of informa...
An integrated online screening system was developed to rapidly screen homogeneous catalysts for acti...
High-throughput experimentation in heterogeneous catalysis has recently experienced nearly exponenti...
We present here a powerful tool for high throughput screening of heterogeneous catalysts, successful...