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Benalia, S., Tesfaye, F., Lindberg, D., Sibarani, D., Hupa, L., Chartrand, P., & Robelin, C. (2023). Critical Evaluation and Calorimetric Study of the Thermodynamic Properties of Na₂CrO4, K2CrO4, Na2MoO4, K2MoO4, Na2WO4 and K2WO4. Journal of Physical and Chemical Reference Data, 52(4), 28 pages. Lien externe
Benalia, S., Chartrand, P., & Robelin, C. (2023). Critical Evaluation of the Thermodynamic Properties of Na²Cr²O⁷, K²Cr²O⁷, Na²Mo²O⁷, K²Mo²O⁷, Na²W²O⁷, and K²W²O⁷. Journal of Physical and Chemical Reference Data, 52(4), 043103 (23 pages). Lien externe
Da Silva Lima, C. V., Chartrand, P., & Robelin, C. (octobre 2023). Thermodynamic and phase equilibrium model for inert anode species dissolved in the electrolyte for aluminum production [Affiche]. REGAL Students’ Day, Québec City, Canada. Lien externe
Moufakkir, F.-Z., Harvey, J.-P., & Robelin, C. (octobre 2023). Thermodynamic and phase equilibrium model for salt fluxes used for metal processing and aluminum alloy recycling [Affiche]. REGAL Students' day, Québec City, (Canada). Non disponible
Benalia, S., Tesfaye, F., Lindberg, D., Hupa, L., Chartrand, P., & Robelin, C. (2023). Thermodynamic Model for High-Temperature Corrosion Applications: The (NaCl + Na₂CO₃ + Na₂SO₄ + Na₂S2O₇ + Na₂CrO₄ + Na₂Cr₂O₇ + Na₂MoO₄ + Na₂Mo₂O₇ + Na₂O + KCl + K₂CO₃ + K₂SO₄ + K₂S₂O₇ + K₂CrO₄ + K₂Cr₂O₇ + K₂MoO₄ + K₂Mo₂O₇ + K₂O) System. Industrial & Engineering Chemistry Research, 62(49), 21397-21427. Lien externe
Harvey, J.-P., Gheribi, A. E., Robelin, C., Chartrand, P., Lafaye, P., Oishi, K., & Castillo-Sánchez, J.-R. A virtual laboratory for the aluminum industry [Présentation]. Dans 50th International Conference on Computer Coupling of Phase Diagrams and Thermochemistry (CALPHAD 2023), Boston, MA, USA. Non disponible
Harvey, J.-P., Courchesne, W., Vo, M. D., Oishi, K., Robelin, C., Mahue, U. M. D., Leclerc, P., & Al-Haiek, A. (2022). Greener reactants, renewable energies and environmental impact mitigation strategies in pyrometallurgical processes: a review. MRS Energy & Sustainability, 9(2), 212-247. Disponible
Benalia, S., Robelin, C., & Chartrand, P. (février 2022). Development of a Thermodynamic Model for Chromates, Molybdates, Tungstates, and Vanadates Involved in the Corrosion of Steels (Fe, Cr, Ni, Mo, W, and V) at High Temperatures in Atmospheres Containing O–H–S–C–Cl and Alkaline Salts [Communication écrite]. 7th REWAS Conference - Energy Technologies and CO2 Management. Lien externe
Jin, L., Lindberg, D., Tsuchiyama, Y., & Robelin, C. (2022). A thermodynamic model for high temperature corrosion applications: The (Na₂SO₄+K₂SO₄+ZnSO₄+PbSO₄) system. Chemical Engineering Science, 260, 22 pages. Lien externe
Bouarab, A. F., Harvey, J.-P., & Robelin, C. (2021). Viscosity models for ionic liquids and their mixtures. Physical Chemistry Chemical Physics, 23(2), 733-752. Lien externe
Harvey, J.-P., Lebreux-Desilets, F., Marchand, J., Oishi, K., Bouarab, A.-F., Robelin, C., Gheribi, A. E., & Pelton, A. (2020). On the application of the factsage thermochemical software and databases in materials science and pyrometallurgy. Processes, 8(9), 1156 (31 pages). Disponible
Bouarab, A. F., Martins, M. A. R., Stolarska, O., Smiglak, M., Harvey, J.-P., Coutinho, J. A. P., & Robelin, C. (2020). Physical properties and solid-liquid equilibria for hexafluorophosphate-based ionic liquid ternary mixtures and their corresponding subsystems. Journal of Molecular Liquids, 316, 17 pages. Lien externe
Bouarab, A. F., Stolarska, O., Harvey, J.-P., Smiglak, M., & Robelin, C. (2020). Viscosity of a Ternary Reciprocal System Consisting of 1-Alkylpyridinium Halides. Industrial and Engineering Chemistry Research, 59(25), 11823-11838. Lien externe
Mirarabrazi, M., Martins, M. A. R., Pinho, S. P., Coutinho, J. A. P., & Robelin, C. (2019). Solid-Liquid Equilibria for Hexafluorophosphate-Based Ionic Liquid Quaternary Mixtures and Their Corresponding Subsystems. Journal of Physical Chemistry B, 123(42), 8954-8969. Lien externe
Wang, K., Robelin, C., & Chartrand, P. (juin 2019). Thermodynamic assessment of the KF-BeF2, KCl-BeCl2, BeF2-BeCl2 and KF-KCl systems towards an investigation on the K, Be // F, Cl reciprocal phase equilibria [Présentation]. Dans CALPHAD XLVIII, Singapore, Singapore. Non disponible
Wang, K., Robelin, C., Jin, L., Zeng, X., & Chartrand, P. (2019). Thermodynamic description of the K, Be//F, Cl salt system with first-principles calculations. Journal of Molecular Liquids, 292, 20 pages. Lien externe
Lu, G., Robelin, C., Chartrand, P., He, M., & Wang, K. (2019). Thermodynamic evaluation and optimization of the (LiCl + NaCl + KCl + MgCl2 + CaCl2 + CeCl3) system. Fluid Phase Equilibria, 487, 83-97. Lien externe
Deschênes-Allard, F., Robelin, C., Zanghi, D., Bouvet, S., Ory, S., Véron, E., Machado, K., Bessada, C., & Chartrand, P. (2018). Experimental and thermodynamic assessment of the fluoride-rich region in the Cu-O-F system. Thermochimica Acta, 663, 194-214. Lien externe
Robelin, C., Mirarabrazi, M., Stolarska, O., & Smiglak, M. (mai 2018). Modeling the thermodynamic properties of “ionic liquid” mixtures [Présentation]. Dans CALPHAD XLVII, Querétaro, Mexico. Non disponible
Mirarabrazi, M., Stolarska, O., Smiglak, M., & Robelin, C. (2018). Solid liquid equilibria for a pyrrolidinium-based common-cation ternary ionic liquid system, and for a pyridinium-based ternary reciprocal ionic liquid system: an experimental study and a thermodynamic model. Physical Chemistry Chemical Physics, 20(1), 637-657. Lien externe
Stolarska, O., Mirarabrazi, M., Robelin, C., & Smiglak, M. (avril 2018). Solid-liquid equilibria for a pyrrolidinium-based common-cation ternary ionic liquid system, and for a pyridinium-based ternary reciprocal ionic liquid system [Affiche]. 2nd Advances in Green Chemistry Conference (AGC 2018), Poznan, Poland. Non disponible
Chartrand, P., Gheribi, A. E., Wang, K., Ouzilleau, P., & Robelin, C. (juin 2018). Thermodynamic and physical-property models for the production of primary aluminum [Présentation]. Dans Canadian Materials Science Conference, Edmonton, Canada. Non disponible
Aubé, M., Robelin, C., & Chartrand, P. (mai 2018). Thermodynamic evaluation and optimization of the H2O-HNO3 and H2O-HCl systems [Présentation]. Dans CALPHAD XLVII, Querétaro, Mexico. Non disponible
Chartrand, P., Gheribi, A. E., Wang, K., Ouzilleau, P., & Robelin, C. (juin 2017). Thermodynamic and physical-property models for the production of primary aluminum [Présentation]. Dans CALPHAD XLVI, Saint-Malo, France. Non disponible
Aubé, M., Robelin, C., & Chartrand, P. (juin 2017). Thermodynamic evaluation and optimization of the NaF-KF-ZnF2 system [Affiche]. CALPHAD XLVI, Saint-Malo, France. Non disponible
Bale, C. W., Bélisle, E., Chartrand, P., Decterov, S., Eriksson, G., Gheribi, A. E., Hack, K., Jung, I. H., Kang, Y. B., Melançon, J., Pelton, A., Petersen, S., Robelin, C., Sangster, J., Spencer, P., & Van Ende, M. A. (2016). FactSage thermochemical software and databases, 2010–2016. Calphad, 54, 35-53. Disponible
Robelin, C. (2016). Models for the thermodynamic properties of molten salt systems: Perspectives for ionic liquids. Fluid Phase Equilibria, 409, 482-494. Lien externe
Bale, C. W., Bélisle, E., Chartrand, P., Decterov, S., Eriksson, G., Gheribi, A. E., Hack, K., Jung, I. H., Kang, Y. B., Melançon, J., Pelton, A., Petersen, S., Robelin, C., Sangster, J., Spencer, P., & Van Ende, M. A. (2016). Reprint of: FactSage thermochemical software and databases, 2010-2016 (vol 54, pg 35, 2016). CALPHAD: Computer Coupling of Phase Diagrams and Thermochemistry, 55(1), 1-19. Lien externe
Wang, K., Robelin, C., Wu, Z., Li, C., Xie, L., & Chartrand, P. (2016). Thermodynamic description of the AgCl-CoCl₂-InCl₃-NaCl system. Journal of Alloys and Compounds, 663, 885-898. Lien externe
Kang, Z., Robelin, C., He, M., & Chartrand, P. (2016). Thermodynamic evaluation and optimization of the (KF + YF₃), (KCl + YCl₃) and (YF₃ + YbF₃) binary systems. Journal of Chemical Thermodynamics, 98, 242-253. Lien externe
Robelin, C., Gemme, F., & Chartrand, P. (juillet 2016). Thermodynamic models for salt systems used for the production of fertilizers [Communication écrite]. EUCHEM Conference on Molten Salts and Ionic Liquids XXVI, Vienna, Austria. Non disponible
Gheribi, A. E., Harvey, J.-P., Belisle, E., Robelin, C., Chartrand, P., Pelton, A., Bale, C. W., & Le Digabel, S. (2016). Use of a biobjective direct search algorithm in the process design of material science applications. Optimization and Engineering, 17(1), 27-45. Lien externe
Robelin, C., Chartrand, P., & Pelton, A. (2015). Thermodynamic evaluation and optimization of the (NaNO₃ + KNO₃ + Na₂SO₄ + K₂SO₄) system. Journal of Chemical Thermodynamics, 83, 12-26. Lien externe
Gbassi, G. K., & Robelin, C. (2015). Thermodynamic evaluation and optimization of the CH₃COOLi-CH₃COOK-CH₃COOCs system using the Modified Quasichemical Model. Fluid Phase Equilibria, 406, 134-141. Lien externe
Robelin, C. (août 2014). Models for the thermodynamic properties and physical properties (density, viscosity) of molten salt systems : perspectives for ionic liquids [Présentation]. Dans Symposium on Advances in Computational Thermodynamics, Montebello, Quebec, Canada. Non disponible
Bale, C. W., Bélisle, E., Chartrand, P., Decterov, S., Eriksson, G., Gheribi, A. E., Hack, K., Jung, I.-H., Melançon, J., Pelton, A., Petersen, S., & Robelin, C. (février 2014). Recent developments in FactSage thermochemical software and databases [Communication écrite]. Celebrating the Megascale: Extraction and Processing Division Symposium on Pyrometallurgy in Honor of David G.C. Robertson - TMS 2014 143rd Annual Meeting and Exhibition, Orlando, Florida. Lien externe
Chartrand, P., Gemme, F., & Robelin, C. (mai 2013). A thermodynamic model for the NH₄+, K+ // H₂PO₄-, H₂P₂O₇²-, NO₃-, Cl- - H₂O system [Communication écrite]. 2nd International Symposium on Innovation and Technology in the Phosphate Industry (SYMPHOS 2013), Agadir, Kingdom of Morocco. Publié dans Procedia Engineering, 83. Lien externe
Chartrand, P., Robelin, C., & Gemme, F. (juin 2014). A thermodynamic model for the NH4[+], K[+] // H2PO4[-], H2P2O7[2-], NO3[-], Cl[-] - H2O system for fertilizer applications [Présentation]. Dans CALPHAD XLIII, Changsha, China. Lien externe
Robelin, C., Gheribi, A. E., & Chartrand, P. (juillet 2014). Thermodynamic models for chloro-fluoride and fluoro-oxide reciprocal salt systems of industrial interest [Présentation]. Dans EUCHEM Conference on Molten Salts and Ionic Liquids XXV, Tallinn, Estonia. Non disponible
Robelin, C., & Chartrand, P. (2013). Thermodynamic evaluation and optimization of the (NaF + AlF₃ + CaF₂ + BeF₂ + Al₂O₃ + BeO) system. Journal of Chemical Thermodynamics, 57, 387-403. Lien externe
Ouzilleau, P., Robelin, C., & Chartrand, P. (2012). A Density Model Based on the Modified Quasichemical Model and Applied to the (NaCl + KCl + ZnCl₂) Liquid. Journal of Chemical Thermodynamics, 47, 171-176. Lien externe
Chartrand, P., & Robelin, C. Modeling of cryolitic systems for Al reduction cells : coupled thermodynamic and physical property models [Présentation]. Dans University of Science and Technology of Beijing (USTB), Beijing, China. Non disponible
Robelin, C., Gheribi, A. E., & Chartrand, P. (août 2012). Models for the thermodynamic properties and physical properties (density, viscosity, electrical conductivity) of molten salt systems : perspectives for ionic liquids [Affiche]. EUCHEM Conference on Molten Salts and Ionic Liquids XXIV, Celtic Manor, Wales. Non disponible
Robelin, C., Gheribi, A. E., & Chartrand, P. (août 2012). Models for the thermodynamic properties and physical properties (density, viscosity, electrical conductivity) of molten salt systems : perspectives for ionic liquids [Présentation]. Dans EUCHEM Conference on Molten Salts and Ionic Liquids XXIV, Celtic Manor, Wales. Non disponible
Robelin, C. Models for the thermodynamic properties and physical properties (density, viscosity, electrical conductivity) of molten salts of industrial interest [Présentation]. Dans Symposium of Thermodynamics, Turku, Finland. Non disponible
Chartrand, P., Robelin, C., & Lambotte, G. (septembre 2012). Thermodynamic modeling of cryolitic systems for Al reduction cells [Présentation]. Dans High Temperature Materials Chemistry HTMC-XIV, Beijing, China. Non disponible
Gheribi, A. E., Robelin, C., Le Digabel, S., Audet, C., & Pelton, A. (2011). Calculating all local minima on liquidus surfaces using the FactSage software and databases and the Mesh Adaptive Direct Search algorithm. Journal of Chemical Thermodynamics, 43(9), 1323-1330. Lien externe
Robelin, C., & Chartrand, P. (2011). Corrigendum to "Thermodynamic evaluation and optimization of the (NaCl + KCl + MgCl2 + CaCl2 + ZnCl2) system" [J. Chem. Thermodyn. 43(3) (2011) 377-391] (DOI:10.1016/j.jct.2010.10.013). Journal of Chemical Thermodynamics, 43(12), 2015-2015. Lien externe
Chartrand, P., Robelin, C., Heyrman, M., & Tripathi, N. (mai 2011). The cryolite database for the Hall-Heroult alumina reduction process [Présentation]. Dans CALPHAD XL, Rio de Janeiro, Brazil. Lien externe
Robelin, C., & Chartrand, P. (mai 2011). Overview of the molten chlorides, fluorides and chloro-fluorides databases of the FactSage thermochemical software [Présentation]. Dans CALPHAD XL, Rio de Janeiro, Brazil. Non disponible
Robelin, C., & Chartrand, P. (2011). Thermodynamic evaluation and optimization of the (NaCl + KCl + MgCl 2 + CaCl2 + ZnCl2) system. Journal of Chemical Thermodynamics, 43(3), 377-391. Lien externe
Renaud, E., Robelin, C., Gheribi, A. E., & Chartrand, P. (2011). Thermodynamic evaluation and optimization of the Li, Na, K, Mg, Ca, Sr // F, Cl reciprocal system. Journal of Chemical Thermodynamics, 43(8), 1286-1298. Lien externe
Robelin, C., & Chartrand, P. (2011). A viscosity model for the (NaF+AlF3+CaF2+Al 2O3) electrolyte. Journal of Chemical Thermodynamics, 43(5), 764-774. Lien externe
Renaud, E., Robelin, C., & Chartrand, P. (mai 2010). Thermodynamic evaluation and optimization of the Na[+], Ca[2+], Al[3+], Fe[2+], Fe[3+] // F[-], O[2-], Va[-] system [Présentation]. Dans CALPHAD XXXIX, Jeju, South Korea. Lien externe
Bale, C. W., Bélisle, E., Chartrand, P., Decterov, S., Eriksson, G., Hack, K., Jung, I.-H., Kang, Y.-B., Melancon, J., Pelton, A., Robelin, C., & Petersen, S. (2009). FactSage thermochemical software and databases - recent developments. CALPHAD: Computer Coupling of Phase Diagrams and Thermochemistry, 33(2), 295-311. Lien externe
Robelin, C., Eriksson, G., Pelton, A., & Chartrand, P. (janvier 2008). Models for the thermodynamic properties, densities and viscosity of molten salts [Communication écrite]. VIII International Conference on Molten Slags, Fluxes, and Salts, Santiago, Chile (10 pages). Lien externe
Renaud, E., Robelin, C., Heyrman, M., & Chartrand, P. (2009). Thermodynamic evaluation and optimization of the (LiF + NaF + KF + MgF2 + CaF2 + SrF2) system. Journal of Chemical Thermodynamics, 41(5), 666-682. Lien externe
Chartrand, P., & Robelin, C. Modeling the physical properties (density, viscosity, electrical conductivity) of liquid NaF-AlF₃-CaF₂-Al₂O₃ solutions [Présentation]. Dans University of Science and Technology of Beijing (USTB), Beijing, China. Non disponible
Chartrand, P., & Robelin, C. Modeling the physical properties (density, viscosity, electrical conductivity) of liquid NaF-AlF₃-CaF₂-Al₂O₃ solutions [Présentation]. Dans Florida International University, Miami, Florida, USA. Non disponible
Robelin, C., & Chartrand, P. (2007). A Density Model Based on the Modified Quasichemical Model and Applied to the NaF-AlF₃-CaF₂-Al₂O₃ Electrolyte. Metallurgical and Materials Transactions. B, Process Metallurgy and Materials Processing Science, 38(6), 881-892. Lien externe
Robelin, C., Chartrand, P., & Eriksson, G. (2007). A Density Model for Multicomponent Liquids Based on the Modified Quasichemical Model: Application to the NaCl-KCl-MgCl₂-CaCl₂ System. Metallurgical and Materials Transactions. B, Process Metallurgy and Materials Processing Science, 38(6), 869-879. Lien externe
Robelin, C., & Chartrand, P. (février 2007). Predictive models for the density and viscosity of the NaF-AlF₃-CaF₂-Al₂O₃ electrolyte [Communication écrite]. TMS 2007 Annual Meeting and Exhibition, Orlando, FL, United States. Lien externe
Robelin, C. Some features of molten salt systems : grouping, exception lines and density model [Présentation]. Dans The Gunnar Eriksson Symposium and 65th Birthday Gala, Hôtel La Sapinière, Val David, Canada. Non disponible
Robelin, C., & Chartrand, P. (mai 2007). A viscosity model for the Na[+], Al[3+], Ca[2+] // F[-], O[2-] electrolyte [Affiche]. CALPHAD XXXVI, State College, Pennsylvania, USA. Non disponible
Robelin, C., & Chartrand, P. (septembre 2006). Modeling the thermodynamic properties and density of molten salt systems : perspectives for ionic liquids [Présentation]. Dans EUCHEM Conference on Molten Salts and Ionic Liquids XXI, Hammamet, Tunisia. Non disponible
Robelin, C., Chartrand, P., & Pelton, A. (octobre 2004). A Thermodynamic Database for AlCl₃-Based Molten Salt Systems [Communication écrite]. Molten Salts XIV, Honolulu, Hawaii. Publié dans ECS Proceedings Volumes, 2004-24(1). Lien externe
Robelin, C., & Chartrand, P. (mai 2005). Modeling the volumetric properties of multicomponent liquids : the NaCl-KCl-MgCl2-CaCl2 and Na[+], Al[3+], Ca[2+] // F[-], O[2-] systems [Présentation]. Dans CALPHAD XXXIV, Maastricht, The Netherlands. Non disponible
Robelin, C., Chartrand, P., & Pelton, A. (mai 2004). A thermodynamic database for AlCl₃-based molten salt systems [Présentation]. Dans CALPHAD XXXIII, Krakow, Poland. Non disponible
Robelin, C., Chartrand, P., & Pelton, A. (2004). Thermodynamic evaluation and optimization of the (MgCl₂ + CaCl₂ + MnCl₂ + FeCl₂ + CoCl₂ + NiCl₂) system. Journal of Chemical Thermodynamics, 36(9), 793-808. Lien externe
Robelin, C., Chartrand, P., & Pelton, A. (2004). Thermodynamic evaluation and optimization of the (NaCl + KCl + AlCl₃) system. Journal of Chemical Thermodynamics, 36(8), 683-699. Lien externe
Robelin, C., Chartrand, P., & Pelton, A. (2004). Thermodynamic evaluation and optimization of the (NaCl + KCl + MgCl₂ + CaCl₂ + MnCl₂ + FeCl₂ + CoCl₂ + NiCl₂) system. Journal of Chemical Thermodynamics, 36(9), 809-828. Lien externe
Robelin, C., Chartrand, P., & Pelton, A. (août 2004). Thermodynamic modeling of AlCl3-based molten chlorides systems [Affiche]. Gordon Research Conference “High Temperature Materials, Processes & Diagnostics”, Colby College, Waterville, Maine. Non disponible
Robelin, C., Chartrand, P., & Pelton, A. (mai 2003). A thermodynamic model for AlCl₃-based molten salt systems [Présentation]. Dans CALPHAD XXXII, La Malbaie, Quebec, Canada,. Non disponible
Robelin, C., Duval, F. P., Richetti, P., & Warr, G. G. (2002). Grafting of diblock copolymers onto adsorbed surfactant films. Langmuir, 18(5), 1634-1640. Lien externe
Robelin, C., Chartrand, P., & Pelton, A. (mai 2002). Recent developments in the molten chlorides database of the FactSage thermochemical software [Présentation]. Dans CALPHAD XXXI, Stockholm, Sweden. Non disponible
Chartrand, P., Robelin, C., & Pelton, A. (mai 2001). Salt databases developments [Présentation]. Dans CALPHAD XXX, York, England, UK. Non disponible
Robelin, C. (2000). Comportement à une interface solide de solutions mixtes polymère-tensioactif [Thèse de doctorat, Université Pierre et Marie Curie - Paris VI]. Non disponible
Pelton, A., Decterov, S., Eriksson, G., Robelin, C., & Dessureault, Y. (2000). The Modified Quasichemical Model I - Binary Solutions. Metallurgical and Materials Transactions. B, Process Metallurgy and Materials Processing Science, 31(4), 651-659. Lien externe
Robelin, C., Anthony, O., Marques, C., & Richetti, P. Bulk and surface behavior of polymer-surfactant solutions : cationic guar and sodium dodecyl sulfate [Affiche]. 218th American Chemical Society (ACS) National Meeting, Division of Colloid and Surface Chemistry, New Orleans, Louisiana, USA. Non disponible
Robelin, C. (1997). Banque de données thermodynamiques pour la phase métallique et les sels fondus lors du recyclage de l'aluminium [Mémoire de maîtrise, École Polytechnique de Montréal]. Disponible