Christian L. Dinter
Papers
2
Total Citations
24
H-Index
2
About
Christian L. Dinter is a pioneer in high-throughput experimentation for chemical development, whose work has fundamentally advanced the automation of critical laboratory workflows. His research centers on developing integrated robotic systems that dramatically increase the efficiency of solubility determination and reaction screening—two foundational tasks in pharmaceutical and fine chemical process development. Dinter’s most impactful contribution, detailed in his 2005 paper (16 citations), describes a fully automated workflow combining a customized robotic system with a turbidity probe to rapidly and reliably measure solubility data, which is essential for cleaning operations in multipurpose pilot and production plants. Complementing this, his 2004 work (8 citations) introduced a novel integration of a parallel synthesis robot with a thin-layer chromatography (TLC) scanner, enabling high-throughput reaction screening of hundreds of reactions simultaneously. By automating these traditionally manual, time-consuming processes, Dinter has provided the chemical industry with powerful tools to accelerate development timelines, reduce waste, and improve safety—making him a key figure in the transition toward data-rich, automated chemical discovery and manufacturing.
Research Focus
Key Achievements
Top Papers
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