Abstract
Materials science is on the verge of a fundamental change of its research and development (R&D) methodology. High-throughput experimentation, combinatorial chemistry, and parallel synthesis have entered laboratories and promise a dramatic acceleration in the process of discovering and developing new products. Although Hanak had already devised the basic concepts in the 1970s [1], it took the leading example of the pharmaceutical industry and the pioneering work of Schultz and co-workers and Symyx Technologies to spark activities in almost all branches of materials science [2–13]. The combinatorial or high throughput screening approach to materials development involves four key steps.
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References and Notes
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Bach, H., Gambino, C.A., Lunney, P.D., Wicks, D.A. (2003). A High-Throughput Cross-Linker Evaluation for Polyurethane Dispersions. In: Potyrailo, R.A., Amis, E.J. (eds) High-Throughput Analysis. Springer, Boston, MA. https://doi.org/10.1007/978-1-4419-8989-5_24
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