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Further development of a versatile microscale automated workstation for parallel adaptive experimentation

David G. Cork, Tohru Sugawara, Jonathan S. Lindsey, L. Andrew Corkan, Hai Du

发表年份
1999
引用次数
12

摘要

We have further developed our microscale automated chemistry workstation for investigating the optimization of reaction conditions. The workstation includes a Cartesian robot for solvent delivery and reagent/sample handling, a 60-vessel reaction block, a UV–Vis absorption spectrometer, and vial racks for compound storage. This article describes the following hardware additions that increase the scope and versatility of the workstation: (a) an analytical high performance liquid chromatography (HPLC) instrument and accompanying hardware interface (slide rail, autosampler); (b) three reactor blocks of 20 vessels each, with independent temperature control of each reactor block between ca. 0 and 80°C; (c) a shaker rack for mixing, dilution, or extraction of samples; (d) a rotary valve on the dispense line for complete isolation of 4 independent solvent lines; (e) sample workup features using disposable cartridges or filters; (f) provisions for dispensing inert gas, for example, for flushing through reactors or for storing solvents and performing transfer/dispense operations under. Using the new features, we are able to obtain useful analytical data from a wider range of reaction mixtures, perform parallel reactions at different temperatures, and handle solvents and sensitive reagents. © 1999 John Wiley & Sons, Inc. Lab Robotics and Automation 11: 217–223, 1999

关键词

Microscale chemistryMicroreactorAutomationCartridgeWorkstationReagentSample (material)Laboratory automationBlock (permutation group theory)Dilution

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