Measure and control reaction trends and profiles with highly specific information 24/7 with METTLER TOLEDO's Automated Reactors and IN-SITU.
Measure reaction profiles and trends in real-time with ReactIR from METTLER TOLEDO. Providing you a highly specific information about mechanism, kinetics, pathways and the influence of reaction variables on performance and giving you the ability to directly track compositions as they change during the reaction. ReactIR 702L uses solid-state cooling technology to deliver best-in-class performance - without the need for liquid nitrogen.
Record and control all reaction parameters all day long with METTLER TOLEDO’s automated lab reactors and reactor systems that precisely and accurately control reaction parameters and execute recipes enabling you to perform reactions reproducibly in the easiest way possible. The systems capture and report data-rich experiments, screen more parameters with safe, 24 hour, unattended experiments and ensure robust and scalable processes from 0.5 mL to 1000 mL.
Save time with METTLER TOLEDO’s unattended, representative sampling system EasySampler for most chemical reactions. Sampling air-sensitive, pressure, toxic, long reactions with thanks to the automated sample capture, sampling into a fixed volume pocket and continued operation 24 hours all day long. EasySampler takes samples as function of reaction parameters or attributes, including temperature, stirring, dosing, pH or other PAT related information.
Determine thermodynamic data precisely and quickly under both isothermal and non-isothermal conditions and measure the evolution of heat under process conditions precisely and accurately with the immune and robust METTLER TOLEDO’s reaction calorimeters with a temperature range of -70 °C to 300 °C. EasyMax HFCal and OptiMax HFCal are small scale heat flow calorimeters that combine the benefits of a synthesis workstation and a reaction calorimeter.
Complete the study of reactions & determine process variables with iC software from METTLER TOLEDO. Offering data interpretation to help build understanding on how a reaction works or how a process is impacted by a parameter change by transforming experimental data into important process knowledge. Ensure all data is captured from local instruments, prepared into useful formats & shared on a central file store which improves the productivity while facilitating knowledge management for the organization.