Mathilde Isabelle Barriet
Publications
2016
-
Wei, Duo;
Simon, Sebastien Charles;
Barriet, Mathilde Isabelle;
Sjøblom, Johan.
(2016)
An ITC study of interaction and complexation of asphaltene model compounds in apolar solvent II: Interactions with asphaltene inhibitors.
Colloids and Surfaces A: Physicochemical and Engineering Aspects
Academic article
-
Simon, Sebastien Charles;
Wei, Duo;
Barriet, Mathilde Isabelle;
Sjøblom, Johan.
(2016)
An ITC and NMR study of interaction and complexation of asphaltene model compounds in apolar solvent I: Self-association pattern.
Colloids and Surfaces A: Physicochemical and Engineering Aspects
Academic article
2015
-
Wei, Duo;
Orlandi, Ezequiel;
Barriet, Mathilde Isabelle;
Simon, Sebastien Charles;
Sjøblom, Johan.
(2015)
Aggregation of tetrameric acid in xylene and its interaction with asphaltenes by isothermal titration calorimetry.
Journal of Thermal Analysis and Calorimetry
Academic article
2005
-
Barriet, Mathilde Isabelle.
(2005)
Model Glycol-Terminated Surfaces for Adhesion Resistance.
The journal of adhesion
Academic article
Journal publications
-
Wei, Duo;
Simon, Sebastien Charles;
Barriet, Mathilde Isabelle;
Sjøblom, Johan.
(2016)
An ITC study of interaction and complexation of asphaltene model compounds in apolar solvent II: Interactions with asphaltene inhibitors.
Colloids and Surfaces A: Physicochemical and Engineering Aspects
Academic article
-
Simon, Sebastien Charles;
Wei, Duo;
Barriet, Mathilde Isabelle;
Sjøblom, Johan.
(2016)
An ITC and NMR study of interaction and complexation of asphaltene model compounds in apolar solvent I: Self-association pattern.
Colloids and Surfaces A: Physicochemical and Engineering Aspects
Academic article
-
Wei, Duo;
Orlandi, Ezequiel;
Barriet, Mathilde Isabelle;
Simon, Sebastien Charles;
Sjøblom, Johan.
(2015)
Aggregation of tetrameric acid in xylene and its interaction with asphaltenes by isothermal titration calorimetry.
Journal of Thermal Analysis and Calorimetry
Academic article
-
Barriet, Mathilde Isabelle.
(2005)
Model Glycol-Terminated Surfaces for Adhesion Resistance.
The journal of adhesion
Academic article