Automated Active Ingredients (AI) Library Synthesis in Disposable Glass Vials / Reactors and / or Photochemistry Reactors and / or Reusable Double-Jacket Reactors


ISYNTH AI

The leading technology in overhead gravimetric dispensing / dosing (patented) combined with our disposable or reusable or microwave or photochemistry reactors, and our user-friendly software, allow you to standardize and accelerate your parallel synthesis / work-up / analysis workflows for enabling your innovative medicine R+D.

Key advantages

  • Decrease in cost per experiment up to 90+ %.
  • Increase in productivity by a factor of 10+.
  • Easy-to-use disposable glass reactors / vials and / or reusable double-jacket reactors and / or microwave reactors.
  • Reagent preparation (liquids and solids), multistep synthesis, work-up, purification, analysis and product transfer to storage.
  • Ventilated, conditioned hood for e.g. sensitive, low-temperature chemistry.
  • - 70 to 200 °C.
  • 4-Needle Head for volumetric liquid handling and sampling.
  • Gravimetric solid dispensing into an unlimited choice of vial / plate / reactor formats.
  • The balance moves to the destination, increasing speed and efficiency.
  • Balance resolution of 100 μg or 10 μg.
  • A large dispensing range, from a few mg up to several grams.
  • Powder dispensing / dosing robotic tool can be combined with other tools to accommodate multiple workflows.
  • Dispensed amount, mixing speed, temperature, pressure, time..., and other data are stored in a read only log file.
  • Easy access to data with a convenient interface to pull results into Excel or virtually any other software.
  • Interface to DOE.

 

Enhance your efficiency and productivity with our workflow solutions!
Chemspeed's unique, proprietary array synthesis reactor technology with disposable vials
Technical details

Chemspeed’s ISYNTH deck modularity allows the user to execute and perform a variety of workflows in a fully automated fashion, including reaction preparation, multistep synthesis, work-up, purification, analysis and product transfer to storage.

96/384 DISCRETE REACTIONS IN INDIVIDUALS (SMOLE 2022)