 | Up a level |
Chub, O. V., Dubois, J.-L., & Patience, G. S. (2023). Zeolite Y hydrolyses methyl methacrylate to methacrylic acid in the gas phase. Chemical Engineering Journal, 459, 141479 (10 pages). External link
Chub, O. V., Saadatkhah, N., Dubois, J.-L., & Patience, G. S. (2022). Fluidized bed poly(methyl methacrylate) thermolysis to methyl methacrylate followed by catalytic hydrolysis to methacrylic acid. Applied Catalysis A-General, 638, 118637 (11 pages). External link
Chub, O. V., Dubois, J.-L., & Patience, G. S. (2022). Tandem fluidized bed/milli-second fixed bed reactor produces methacrylic acid from poly(methyl methacrylate). Applied Catalysis A-General, 647, 118887 (6 pages). External link
Darabi Mahboub, M. J., Dubois, J.-L., Cavani, F., Rostamizadeh, M., & Patience, G. S. (2018). Catalysis for the synthesis of methacrylic acid and methyl methacrylate. Chemical Society Reviews, 47(20), 7703-7738. External link
Darabi Mahboub, M. J., Wright, J., Boffito, D. C., Dubois, J.-L., & Patience, G. S. (2018). Cs, V, Cu Keggin-type catalysts partially oxidize 2-methyl-1,3-propanediol to methacrylic acid. Applied Catalysis A: General, 554, 105-116. External link
Dalil, M., Edake, M., Sudeau, C., Dubois, J.-L., & Patience, G. S. (2016). Coke promoters improve acrolein selectivity in the gas-phase dehydration of glycerol to acrolein. Applied Catalysis A: General, 522, 80-89. External link
Dubois, J.-L., & Patience, G. S. (2016). Continuous catalyst regeneration in a fluidized bed reactor. (Patent no. US9427718). External link
Dalil, M., Carnevali, D., Edake, M., Auroux, A., Dubois, J.-L., & Patience, G. S. (2016). Gas phase dehydration of glycerol to acrolein: Coke on WO3/TiO2 reduces by-products. Journal of Molecular Catalysis A: Chemical, 421, 146-155. External link
Dubois, J.-L., & Patience, G. S. (2013). Method for the reactive vaporization of glycerol. (Patent no. US8530697). External link
Dubois, J.-L., & Patience, G. S. (2012). Method for preparing acrylic acid from glycerol. (Patent no. US8212070). External link
Dubois, J.-L., Dupont, N., & Patience, G. S. (2011). Process for the selective oxidation of carbon monoxide. (Patent Application no. US20130131380). External link
Edake, M., Dalil, M., Darabi Mahboub, M. J., Dubois, J.-L., & Patience, G. S. (2017). Catalytic glycerol hydrogenolysis to 1,3-propanediol in a gas–solid fluidized bed. RSC Advances, 7(7), 3853-3860. Available
Fernandez Rivas, D., Boffito, D. C., Faria-Albanese, J., Glassey, J., Afraz, N., Akse, H., Boodhoo, K. V. K., Bos, R., Cantin, J., Chiang, Y. W., Commenge, J.-M., Dubois, J.-L., Galli, F., de Mussy, J. P. G., Harmsen, J., Kalra, S., Keil, F. J., Morales-Menendez, R., Navarro-Brull, F. J., ... Weber, R. S. (2020). Process intensification education contributes to sustainable development goals. Part 1. Education for Chemical Engineers, 32, 14 pages. External link
Godefroy, A., Patience, G. S., Cenni, R., & Dubois, J.-L. (2010). Regeneration studies of redox catalysts. Chemical Engineering Science, 65(1), 261-266. External link
Godefroy, A., Patience, G. S., Tzakova, T., Garrait, D., & Dubois, J.-L. (2009). Reactor technologies for propane partial oxidation to acrylic acid. Chemical Engineering and Technology, 32(3), 373-379. External link
Patience, G. S., Benamer, A., Chiron, F.-X., Shekari, A., & Dubois, J.-L. (2013). Selectively combusting CO in the presence of propylene. Chemical Engineering and Processing : Process Intensification, 70, 162-168. External link
