Publications
24. R. Sohrabi, B. Malvoisin, A. Mazzini and S.A. Miller (2021), Multi-GPU based 3D numerical modeling of fluid migration and clay dehydration influence on Lusi hydrothermal activity (Java, Indonesia), Journal of Volcanology and Geothermal Research, 419, 107377 Link 23. B. Malvoisin, Y.Y. Podladchikov and A.V. Myasnikov (2021), Achieving complete reaction while the solid volume increases: A numerical model applied to serpentinisation, Earth and Planetary Science Letters, 563, 116859 Link 22. B. Malvoisin and L.P. Baumgartner (2021), Mineral Dissolution and Precipitation Under Stress: Model Formulation and Application to Metamorphic Reactions, Geochemistry, Geophysics, Geosystems, 22, e2021GC009633 Link 21. A. Eslami, B. Malvoisin, F. Brunet, A. Kananian, W. Bach, G. Grieco, A. Cavallo and G.D. Gatta (2021), Podiform magnetite ore (s) in the Sabzevar ophiolite (NE Iran): oceanic hydrothermal alteration of a chromite deposit, Contributions to Mineralogy and Petrology, 176, 1-23 Link 20. A. Eslami, B. Malvoisin, G. Grieco, L.E. Aradi, C. Marchesi, A. Cavallo, A. Montanini, G. Borghini, R. Mathur, K. Ikehata, D.W. Davis, C.-H. Li and C. Szabó (2021), Native copper formation associated with serpentinization in the Cheshmeh-Bid ophiolite massif (Southern Iran), Lithos, 382, 105953 Link 19. B. Malvoisin, H. Austrheim, G. Hetényi, J. Reynes, J. Hermann, L.P. Baumgartner and Y.Y. Podladchikov (2020), Sustainable densification of the deep crust, Geology, 48, 673-677 Link 18. B. Malvoisin, C. Zhang, O. Müntener, L.P. Baumgartner, P.B. Kelemen and the Oman Drilling Project Science Party (2020), Measurement of Volume Change and Mass Transfer During Serpentinization: Insights From the Oman Drilling Project, Journal of Geophysical Research, 125, e2019JB01887 Link 17. P.B. Kelemen, J.M. Matter, D.A.H. Teagle, J.A. Coggon and the Oman Drilling Project Science Team (2020), Proceedings of the Oman Drilling Project, Link 16. S. Picazo, B. Malvoisin, L. Baumgartner and A.-S. Bouvier (2020), Low Temperature Serpentinite Replacement by Carbonates during Seawater Influx in the Newfoundland Margin, Minerals, 10(2), 184 Link 15. B. Malvoisin , A. Mazzini and S.A. Miller (2018), Deep hydrothermal activity beneath Lusi mud volcano, Earth and Planetary Science Letters, 497, 42-49 Link 14. S. Omlin, B. Malvoisin, and Y.Y. Podladchikov (2017), Pore fluid extraction by reactive solitary waves in 3-D, Geophysical Research Letters 44, 18 Link; AGU Spotlight and commentary by S. Chakraborty13. B. Malvoisin, N. Brantut, and M.-A. Kaczmarek (2017), Control of serpentinisation rate by reaction-induced cracking, Earth and Planetary Science Letters.Link (Open Access)
12. R. Sohrabi, G. Jansen, B. Malvoisin, A. Mazzini, and S.A. Miller (2017), Numerical modeling of the Lusi hydrothermal system: Initial results and future challenges, Marine and Petroleum Geology.Link
11. B. Malvoisin, C. Chopin, A. Baronnet, F. Brunet, L. Bezacier, and S. Guillot (2017), Fe–Ni-rich Silicate Aggregates Formed after Sulfides in High-pressure Serpentinites, Journal of Petrology.Link
10. B. Malvoisin, Y.Y. Podladchikov and J.C. Vrijmoed (2015), Coupling changes in densities and porosity to fluid pressure variations in reactive porous fluid flow: Local thermodynamic equilibrium, Geochemistry, Geophysics, Geosystems.[pdf]Link
9. B. Malvoisin (2015), Mass transfer in the oceanic lithosphere: Serpentinization is not isochemical, Earth and Planetary Science Letters 430, 75-85.[pdf][Full access]
8. B. Huet, L. Labrousse, P. Monié, B. Malvoisin and L. Jolivet (2015), Coupled phengite 40Ar–39Ar geochronology and thermobarometry: P-T-t evolution of Andros Island (Cyclades, Greece), Geological Magazine, 1-17.[pdf]Link.
7. B. Malvoisin, F. Brunet (2014), Water diffusion-transport in a synthetic dunite: Consequences for oceanic peridotite serpentinization, Earth and Planetary Science Letters [pdf] Link.
6. M. Galvez, O. Beyssac, I. Martinez, K. Benzerara, C. Chaduteau, B. Malvoisin, J. Malavieille (2013), Graphite formation by carbonate reduction during subduction, Nature Geoscience [pdf] Link.
5. B. Malvoisin, F. Brunet, J. Carlut, G. Montes-Hernandez, N. Findling, M. Lanson, O. Vidal, J.-Y Bottero and B. Goffé (2013), High-purity hydrogen gas from the reaction between BOF steel slag and water in the 473 - 673K range, The International Journal of Hydrogen Energy [pdf] Link.
4. B. Malvoisin, H. Austrheim, A. Malthe-Sørenssen and J. Glodny (2012), Deformation-related alteration of basaltic clasts during deep burial in sedimentary basins, Chemical Geology, 322-323, 47-67 [pdf] Link.
3. B. Malvoisin, F. Brunet, J. Carlut, S. Rouméjon and M. Cannat (2012), Serpentinization of oceanic peridotites: 2. Kinetics and processes of San Carlos olivine hydrothermal alteration, Journal of Geophysical Research, 117, B04102 pdf Link.
2. B. Malvoisin, J. Carlut and F. Brunet (2012), Serpentinization of oceanic peridotites: 1. A high-sensitivity method to monitor magnetite production in hydrothermal experiments, Journal of Geophysical Research, 117, B01104 [pdf] Link.
1. B. Malvoisin, C. Chopin, F. Brunet and M. Galvez (2012), Low-temperature Wollastonite Formed by Carbonate Reduction: a Marker of Serpentinite Redox Conditions, Journal of Petrology, 53, 159-176 [pdf] Link.
Patent
B. Malvoisin, F. Brunet, O. Vidal and B. Goffé (2013), Method for producing high-purity hydrogen gas, European Patent Application, No. 13305411.4.PhD thesis
You can download the pdf of my thesis here.Communications
Invited presentations
B. Malvoisin, Fate of fluid pathways during reaction in a closed system TIGER conference (Perth, Australia), September 2019.B. Malvoisin, Y.Y. Podladchikov, and S. Omlin, Fluid extraction from subduction zones by reacting porosity wavesEGU General Assembly (Vienna, Austria), April 2018.
B. Malvoisin, Des veines métamorphiques à la migration des tremors en zone de subduction : apport et limites d’une nouvelle génération de modèles de transport réactif JISTerre, Grenoble (France), November 2017.
B. Malvoisin, Reacting porosity waves: a new mechanism for fluid flow in subduction zones? Journées Lémaniques (Geneva, Switzerland), November 2017.
B. Malvoisin, Y.Y. Podladchikov, and S. Omlin, Reacting porosity waves: a mechanism for fluid flow mediated by metamorphic reactions GeoBremen (Bremen), September 2017.
B. Malvoisin, S. Omlin, and Y.Y. Podladchikov, Modelling fluid flow and deformation during (de-)volatilization reactions Interplay between reaction and deformation (ETH Zurich), September 2017.
B. Malvoisin, Modélisations multi-échelles de l'impact des réactions métamorphiques sur la déformation et le transport de fluide, University of Grenoble, November 2016.
B. Malvoisin, Processus minéralogiques et cinétique des réactions métamorphiques : des expériences sous pression et température aux modélisations numériques, University of Paris VI, May 2016.
B. Malvoisin, Hydrogen production during serpentinization: insights from experimental and numerical modelling, Water Dynamics Conference (Tohoku, Japan), March 2016.
B. Malvoisin, F. Brunet and J. Carlut, Upscaling laboratory kinetics data: the example of serpentinization, EGU General Assembly April 2015.
B. Malvoisin, Kinetics and mass transfers during serpentinization at mid-ocean ridges: insights from experimental and thermodynamic modelling, Institut de Physique du Globe (Paris) January 2015.
B. Malvoisin, Impact of mineralogical reactions on transport in porous media, University of Neuchâtel November 2014.
B. Malvoisin, F. Brunet and J. Carlut, Kinetics and microtextures formation during serpentinization: role of grain scale processes and transport AGU Fall Meeting December 2013.
B. Malvoisin, Reducing conditions and kinetics of serpentinization reaction, University of Oslo April 2013.
B. Malvoisin, Serpentinization reaction: kinetics and reducing conditions, University of Lausanne March 2013.
B. Malvoisin, H. Austrheim and A. Malthe-Sørenssen, Reactions, deformation and chemical evolution of basaltic clasts during deep burial in the Solund basin, West Norway, PGP, Oslo April 2010