NEWEST TECHNOLOGY IN LIQUID HANDLING FOR FAST AND ACCURATE RESULTS EVERYTIME!
The I.DOT HT has many advantages and allows users to screen large compound libraries quickly and efficiently at a quick rate while saving significant amount of costs while increasing the throughput. Equipped with 384 source wells, high-throughput experiments can be accomplished more productively and streamline your processes effectively.
Additionally, the I.DOT HT’s DropDetection featurecan detect and count every droplet released during a single dispensing run. It’s a simple and powerful tool that enables droplet verification. DropDetection uses a circuit board mounted under the I.DOT HT source tray that leverages 384 barriers. to detect every droplet generated from each source plate position, identifying changes in light intensity to detect droplets
Eliminate Carry-Over and Cross Contamination
Carry-over can be one of the most frustrating problems in liquid handling. It is recognized as the presence of a small peak that appears when a blank is injected after a sample that produces a large peak. Cross contamination can have major negative consequences for laboratories. Aside from making samples useless and wasting money, cross-contamination can also skew experiment results. The I.DOT HT’s technology enables droplets to be dispensed into the target plate below the source plate and eliminates carry-over and cross contamination
Supports Multiple Liquid Classes
Liquid classes are among the most challenging aspects of an assay. Liquid transfer accuracy and precision can produce variability in results. The I.DOT dispenses multiple liquid classes on-demand including aqueous solutions, various buffers and reagents, DMSO (up to 100%) and glycerol and defines liquid class at the well level.
Save Time and Money
I.DOT HT’s speed saves you time per task from manual pipetting and reduces repetitive work, as a matter of fact, it dispenses 10 nl across a 96-well plate in 10 seconds and across a 384-well plate in 20 seconds. Leaving you with time to focus on the tasks that matter most. The well reservoir design ensures dead volume <5 μl for H2O, which, save 10 times on reagents used. Further, it uses less consumables per task and doesn’t depend on pipette tips which allow laboratories to maximize budgets.