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Isoconversional kinetic analysis applied to five phosphonium cation-based ionic liquids

Authors: Blanco, D., Bartolomé, M., Ramajo, B., Viesca, J.L., González, R. and Hernández Battez, A.

Journal: Thermochimica Acta

Volume: 648

Pages: 62-74

ISSN: 0040-6031

DOI: 10.1016/j.tca.2016.12.014

Abstract:

Thermal degradation of five phosphonium cation-based ionic liquids ([P66614][BEHP], [P66614][(iC8)2PO2], [P66614][NTf2], [P44414][DBS] and [P4442][DEP]) was studied using dynamic methodology (25–600 °C at 5, 10 and 20 °C/min) in both inert (nitrogen) and reactive (oxygen) atmospheres. In addition, isothermal experiments (90 min at 200, 225 and 250 °C) were carried out with [P66614][(iC8)2PO2]. Results indicate that thermal stability is clearly dominated by the coordination ability of the anion, with [P66614][NTf2] outperforming the other ones in both pyrolytic and oxidising conditions. Although the thermal degradation mechanism is affected by atmospheric conditions, the degradation trend remains practically constant. As the dynamic methodology usually overestimates the long-term thermal stability, an isoconversional methodology is better for predicting the long-term thermal stability of these ionic liquids in order to be used as base oil or additive in lubricants formulation. Finally, the model-free methodology can predict at lower costs the ILs performance in isothermal conditions.

https://eprints.bournemouth.ac.uk/26188/

Source: Scopus

Isoconversional kinetic analysis applied to five phosphonium cation-based ionic liquids

Authors: Blanco, D., Bartolome, M., Ramajo, B., Viesca, J.L., Gonzalez, R. and Hernandez Battez, A.

Journal: THERMOCHIMICA ACTA

Volume: 648

Pages: 62-74

eISSN: 1872-762X

ISSN: 0040-6031

DOI: 10.1016/j.tca.2016.12.014

https://eprints.bournemouth.ac.uk/26188/

Source: Web of Science (Lite)

Isoconversional kinetic analysis applied to five phosphoniumcation-based ionic liquids

Authors: Blanco, D., Bartolomé, M., Ramajo, B., Viesca, J.L., González, R. and Hernández Battez, A.

Journal: Thermochimica Acta

Volume: 648

Pages: 62-74

ISSN: 1872-762X

DOI: 10.1016/j.tca.2016.12.014

Abstract:

Thermal degradation of five phosphonium cation-based ionic liquids ([P66614][BEHP], [P66614][(iC8)2PO2],[P66614][NTf2], [P44414][DBS] and [P4442][DEP]) was studied using dynamic methodology (25–600◦C at 5,10 and 20◦C/min) in both inert (nitrogen) and reactive (oxygen) atmospheres. In addition, isothermalexperiments (90 min at 200, 225 and 250◦C) were carried out with [P66614][(iC8)2PO2]. Results indicatethat thermal stability is clearly dominated by the coordination ability of the anion, with [P66614][NTf2] out-performing the other ones in both pyrolytic and oxidising conditions. Although the thermal degradationmechanism is affected by atmospheric conditions, the degradation trend remains practically constant.As the dynamic methodology usually overestimates the long-term thermal stability, an isoconversionalmethodology is better for predicting the long-term thermal stability of these ionic liquids in order to beused as base oil or additive in lubricants formulation. Finally, the model-free methodology can predict atlower costs the ILs performance in isothermal conditions.

https://eprints.bournemouth.ac.uk/26188/

Source: Manual

Isoconversional kinetic analysis applied to five phosphoniumcation-based ionic liquids

Authors: Blanco, D., Bartolomé, M., Ramajo, B., Viesca Rodriguez, J.L., Gonzalez, R. and Hernandez Battez, A.

Journal: Thermochimica Acta

Volume: 648

Issue: February

Pages: 62-74

ISSN: 1872-762X

Abstract:

Thermal degradation of five phosphonium cation-based ionic liquids ([P66614][BEHP], [P66614][(iC8)2PO2],[P66614][NTf2], [P44414][DBS] and [P4442][DEP]) was studied using dynamic methodology (25–600◦C at 5,10 and 20◦C/min) in both inert (nitrogen) and reactive (oxygen) atmospheres. In addition, isothermalexperiments (90 min at 200, 225 and 250◦C) were carried out with [P66614][(iC8)2PO2]. Results indicatethat thermal stability is clearly dominated by the coordination ability of the anion, with [P66614][NTf2] out-performing the other ones in both pyrolytic and oxidising conditions. Although the thermal degradationmechanism is affected by atmospheric conditions, the degradation trend remains practically constant.As the dynamic methodology usually overestimates the long-term thermal stability, an isoconversionalmethodology is better for predicting the long-term thermal stability of these ionic liquids in order to beused as base oil or additive in lubricants formulation. Finally, the model-free methodology can predict atlower costs the ILs performance in isothermal conditions.

https://eprints.bournemouth.ac.uk/26188/

Source: BURO EPrints