TAM Air

New TAM Air The isothermal calorimeter of choice for labs that require high sensitivity and the industry’s best baseline stability for both R&D applications and long term process analysis. << View all Isothermal Calorimeters Description Thermostat Calorimeter Ampoules Experiments Resources Software Video The new TAM Air from TA Instruments is a powerful isothermal calorimeter with heat…

TAM IV

TAM IV is the most sensitive, stable and flexible microcalorimeter system in the world for directly measuring this universal heat signal and, therefore, the quantitative thermodynamic and kinetic observation of any process. It is a unique microcalorimeter system that is completely modular and combines the highest heat flow sensitivity with unmatched long term temperature stability for measuring many processes that are undetectable by other techniques. A wide range of calorimeter configurations and sample handling systems provide maximum application flexibility and ensure optimum laboratory productivity.

TAM IV-48

TAM IV-48 is a high-throughput version of the TAM IV and can accommodate up to 48 individual 4 mL Minicalorimeters.

The large number of independent and parallel sample-measurements makes this system the optimal solution for sample screening, formulation, and process development. It is equally useful in research laboratories as in industrial laboratories including pharmaceutical production control.

Nano ITC

The Nano ITC Standard Volume and Nano ITC Low Volume isothermal titration calorimeters are designed to provide maximum sensitivity and flexibility for the study of biomolecular binding. Both instruments use solid state thermoelectric heating and cooling systems to precisely control temperature, and have the same flexible injection syringe assemblies for efficient and accurate delivery of titrant. The true isothermal power compensation design of the Nano ITC instruments provides the highest sensitivity and flexibility for an ultrasensitive ITC analyzing biological samples in-solution.

Nano DSC

The Nano DSC differential scanning calorimeter is designed to characterize the molecular stability of dilute in-solution biomolecules. The Nano DSC obtains data using less sample than competitive designs. Solid-state thermoelectric elements are used to precisely control temperature and a built-in precision linear actuator maintains constant or controlled variable pressure in the cell. Automated, unattended continuous operation with increased sample throughput is achieved with the optional Nano DSC Autosampler.