Sensors in Combinatorial Polymer Research

## Abstract With combinatorial materials research (CMR), a new research approach toward the development and optimization of materials has been established at BASF. While adopting the basic ideas of combinatorial chemistry, CMR faces a whole bunch of challenges throughout the entire combinatorial pr

During the last decade, combinatorial and high-throughput techniques have revolutionized the way of performing research in biochemistry, genetics and the pharmaceutical industry. The present research and product development in these areas cannot be imagined without the extensive application of a wid

## Abstract **Summary:** Combinatorial and high‐throughput experimentation has, over the past few years, started to play an increasingly important role in the area of materials and polymer science. However, many of the informatics tools currently available to support combinatorial experimentation w

## Abstract Starting in biochemistry and pharmaceutical chemistry, combinatorial methods, automated synthesis and high‐throughput characterization are being further developed for organic synthesis and polymer research. The development is strongly driven by the achievements in biochemistry and pharm

## Abstract **Summary:** For speeding‐up preparation as well as investigating new polymeric materials, combinatorial techniques, parallel experimentation, and high‐throughput screening methods represent a very promising approach in polymer chemistry: a large variety of parameters can be screened si

## Abstract Combinatorial techniques, parallel experimentation and high‐throughput methods represent a very promising approach in order to speed up the preparation and investigation of new polymeric materials: a large variety of parameters can be screened simultaneously resulting in new structure/p