Asynt launch flexible electrochemistry platform
Designed in conjunction with engineers and scientists at the University of Leeds, ElectroReact is built to enable truly flexible use and achieve repeatable and accurate results safely.
Designed in conjunction with engineers and scientists at the University of Leeds, ElectroReact is built to enable truly flexible use and achieve repeatable and accurate results safely.
To meet customer demand, Asynt are now offering 11 different wavelength options for those carrying out photochemical reactions with the LightSyn Lighthouse.
Kingston University collaboration with industry leaders, Asynt and Key Organics, to develop accessible new synthetic compound library.
Asynt has collaborated with Almac Sciences, a leading specialist in API development and manufacturing, to design and supply a range of bespoke reactor vessels.
As part of our 20th birthday celebrations, we’re proud to launch the NEW DrySyn Prodigy using fully recyclable materials.
Take control of your photochemical reactions to ensure reliable, repeatable results!
Sustainable material innovation company, Kelpi (Bristol, UK), is using Asynt’s DrySyn oil-free heating blocks and CondenSyn waterless air condensers in their fight against marine plastic pollution and single-use plastics manufactured from fossil fuels.
Asynt are proud to confirm that age 16+ learners attending Thomas Rotherham College (South Yorkshire, UK) Sixth Form College are using the CondenSyn waterless air condenser and Distillation Adapter in their lessons after recent updates in the science department.
Colgate University (NY, USA) used kinetic data taken from the Asynt Multicell in their valuable characterisation of the mechanisms of Milstein’s catalysts necessary to understand the reactivity of these vital catalysts in ester hydrogenation.
Asynt reports how the deepmatter® Group have developed the cloud-based SmartChemistry® platform to share chemical reaction and sensor data direct from the laboratory to allowing analysis of this information on an unprecedented scale.