DSC L92 – Micro Calorimeter
Εξαιρετικά ευαίσθητο μικρο-θερμιδόμετρο που προσφέρει κορυφαία ακρίβεια στη θερμική ανάλυση, χάρη στον μοναδικό αισθητήρα του και τη βαθμονόμηση Joule.
Differential Scanning Calorimeter
DSC L92 – Micro Calorimeter
Ultra-sensitive micro calorimeter for precise thermal analysis of solids, liquids and solutions.
The DSC L92 from Calneos by Linseis is an ultra-sensitive micro calorimeter designed to deliver the highest precision in thermal analysis. With its unique sensor design, direct sample temperature measurement, and Joule effect calibration, it provides unrivalled accuracy for studying solids, liquids and even highly dilute solutions.
Equipped with interchangeable measurement cells, the system covers a broad range of applications. Batch and high-pressure Cp cells allow highly accurate heat capacity determinations, while bi-compartment and continuous flow cells enable advanced studies of chemical reactions, mixing enthalpies and gas dissolution processes under pressures up to 100 bar. This flexibility makes the DSC L92 a powerful tool for both routine measurements and specialized research tasks.
The instrument operates within a temperature range from -60 °C to 170 °C, with scan rates from 0.001 to 5 °C/min and a temperature regulation precision of 100 µ°C. Its exceptional low-noise performance (0.05 μW RMS) ensures that even the weakest transitions can be detected and analyzed with confidence.
Applications include detailed heat capacity studies, melting and crystallization analysis, detection of liquid-liquid phase transitions such as demixing or degassing, and the characterization of polymers like PTFE. Thanks to its compact footprint and innovative design, the DSC L92 combines high performance with ease of use, providing researchers with a reliable and versatile calorimetric solution.
Whether you are exploring phase transitions, studying reaction enthalpies, or analyzing gas-laden solutions under pressure, the DSC L92 delivers the sensitivity and flexibility required to push the boundaries of thermal analysis.
Unique Features
☑️ Ultra-high sensitivity
Direct sample temperature measurement with Peltier sensors and Joule effect calibration – enabling the detection of even the weakest thermal events.
☑️ Exceptional precision
Temperature regulation with 100 µ°C precision and extremely low RMS noise (0.05 μW), ensuring unrivalled measurement accuracy.
☑️ Wide application flexibility
Multiple interchangeable measurement cells (batch, high-pressure, bi-compartment, continuous flow) for solids, liquids, solutions and chemical reactions – including studies under pressures up to 100 bar.
☑️ Broad measurement range
Temperature range from -60 °C to 170 °C, scan rates from 0.001 to 5 °C/min, and measurement range of ±150 mW.
☑️ Compact and versatile design
Space-efficient instrument (700 × 650 × 500 mm) that integrates advanced functionality into a robust, easy-to-use system.
☑️ Comprehensive research applications
Ideal for studying heat capacities, melting and crystallization, phase transitions (e.g., demixing, degassing), polymer behavior and enthalpy of reactions.
☑️ Fast measurement cycles
Typical measurement times between 30–60 minutes, allowing efficient workflows.
☑️ Direct T-sample measurement
Unlike conventional systems, the DSC L92 measures the sample temperature directly, ensuring maximum accuracy.
☑️ Reusable measurement cells
Many cell types are reusable, reducing running costs and improving sustainability in long-term research.
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