Sensys HPDSC High Pressure Differential Scanning Calorimetry

Sensys HPDSC High Pressure Differential Scanning Calorimetry

Stock Status: On The Way


Incomparable precision: the unique 3D sensor totally surrounds your sample and reference crucibles so that the entire energy of any transformation is monitored thereby giving you an unequalled accuracy of measurement.- Ease of operation: dedicated market leading CALISTO software that is not only intuitive but powerful enough to perform every typical experiments and data treatment.- Parameter Independent Calibration: because of the 3D transducer the calibration of SENSYS evo is independent of: - mass and form (powder, fibre, liquid, etc.) of the sample, - contact between the sample and the transducer, - crucible type, - sweeping gas (inert, oxidizing, reducing, wet, pressure) and flow rate.- DSC measurement under High Pressure: Two models of sealed "High Pressure" Crucibles are available in which only the sample and not the sensor is pressurized, thus allowing for the calibration, baseline and sensitivity to remain unchanged.- Large sample volumes: The working volumes of the crucibles (up to 250 μl) are highly suited to the study of heterogeneous samples, or low-energy phase transitions. They are intended for analyses where the pressure generated by the sample remains low. Crucibles are available in alumina, aluminium, rhodiated platinum.


‧The unmatched stability, reproducibility and accuracy of this new balance offer unparalleled TGA data.

‧High accuracy vacuum tight furnace

‧From routine QC to the determination of a complex formulation within R&D, a robotic autosampler is the ideal solution when high sample throughput is essential.

‧The SENSYS evo DSC Robot offers the possibility of performing unattended analysis of up to 48 samples.

‧The SENSYS evo DSC robot is the only automated DSC capable of working with high pressure Incoloy crucibles.

– Vertical SENSYS DSC evo

‧The vertical configuration of SENSYS evo DSC is particularly suitable for studying the adsorption of gas on catalysts. Using a specific silica reactor inserted into the calorimetric block, measurements on heats of adsorption are obtained with a very high level of precision.


‧The unique 3D-Sensor can be combined with a symmetrical balance beam. The performances of the SENSYS evo TG-DSC result from the absolute symmetry of this unique system in which the TG and DSC transducers, which are mechanically independent, retain their specific characteristics.


With its high precision and wide temperature range (-120 to 830 °C) the

SENSYS evo DSC has a wide range of applications, especially in the fields of thermodynamics (Specific Heat Capacity Cp precision within +/-1 %), pharmaceuticals (phase diagram, polymorphism, purity, thermal stability), safety of chemical process(transition, decomposition under high pressure), energy(catalysis, hydrogen storage, hydrogen adsorption), polymers (glass transition, measurement under pressure), etc.

[Temperature range]: -120~830℃
[Scanning rate]: 0.01~30 K/min
[Resolution]: 0.35μW/0.035μW
[Autosampler]: 48 samples even under pressure
[Gases]: 3 carrier gases (MFC from 4 to 200 ml/min) + 1 auxiliary or reactive gas (MFC from 0.3 to 16 ml/min)
[Cooling system]: Liquid Nitrogen Accessory
[Pressure]: High pressure crucible (up to 500 bars)
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