Proteus thermal analysis program

Manufactured by Netzsch

Sourced in Germany

The Proteus Thermal Analysis program is a software solution developed by Netzsch to support thermal analysis instrumentation. It provides data acquisition, analysis, and reporting capabilities for various thermal analysis techniques, such as Differential Scanning Calorimetry (DSC), Thermogravimetric Analysis (TGA), and Dilatometry. The program offers a user-friendly interface and advanced analytical tools to assist researchers and engineers in the characterization of materials and their thermal properties.

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Proteus Analysis (5 citations)

3 protocols using proteus thermal analysis program

Thermal Degradation Analysis of Ce-LDH

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A thermogravimetric analysis (TGA) was performed to gain insight into the thermal degradation and the structural formula of the synthesized materials. A STA 449 F3 Jupiter device and Proteus Thermal Analysis program from NETZSCH (Selb, Germany) are used. ±10 mg Ce-LDH is heated up to 1000 °C at a rate of 10°/min under air.

De Saegher T., Lauwaert J., Hanssen J., Bruneel E., Van Zele M., Van Geem K., De Buysser K, & Verberckmoes A. (2020). Monometallic Cerium Layered Double Hydroxide Supported Pd-Ni Nanoparticles as High Performance Catalysts for Lignin Hydrogenolysis. Materials, 13(3), 691.

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Thermogravimetric Analysis of Samples

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Thermogravimetric analysis was performed using a NETZSCH 209 F1 Libra thermobalance (NETZSCH, Selb, Germany). Calibration performed with CaC₂O₄·2H₂O showed that the accuracy of mass detection was better than 0.1%. Samples were heated in alumina crucibles under dry nitrogen flow up to 450 °C with the heating rate of 5 K·min^–1. The NETZSCH Proteus Thermal Analysis program was used for the data processing.

Shestimerova T.A., Mironov A.V., Bykov M.A., Grigorieva A.V., Wei Z., Dikarev E.V, & Shevelkov A.V. (2020). Assembling Polyiodides and Iodobismuthates Using a Template Effect of a Cyclic Diammonium Cation and Formation of a Low-Gap Hybrid Iodobismuthate with High Thermal Stability. Molecules, 25(12), 2765.

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Thermogravimetric Analysis of Samples

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Thermogravimetric analysis was performed using a NETZSCH 209 F1 Libra thermobalance. Samples were heated in alumina crucibles under dry nitrogen flow (20 mL min⁻¹) up to 623 or 673 K at a heating rate of 10 K min^-1. Calibration was performed with CaC₂O₄·2H₂O to ensure accuracy of mass detection of not less than 0.1%. The NETZSCH Proteus Thermal Analysis program was used for data processing.

Shestimerova T.A., Golubev N.A., Bykov M.A., Mironov A.V., Fateev S.A., Tarasov A.B., Turkevych I., Wei Z., Dikarev E.V, & Shevelkov A.V. (2021). Molecular and Supramolecular Structures of Triiodides and Polyiodobismuthates of Phenylenediammonium and Its N,N-dimethyl Derivative. Molecules, 26(18), 5712.

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