J. Francis, , 2012.

P. S. Mendes, J. M. Silva, M. F. Ribeiro, C. Bouchy, and A. Daudin, Quantification of the available acid sites in the hydrocracking of nitrogen-containing feedstocks over USY shaped NiMo-catalysts, Journal of Industrial and Engineering Chemistry, vol.71, pp.167-176, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02409000

L. Sorbier, F. Bazer-bachi, Y. Blouët, M. Moreaud, and V. Moizan-basle, Use of the Distance Transform for Integration of Local Measurements: Principle and Application in Chemical Engineering, Microscopy and Microanalysis, vol.22, issue.2, pp.422-431, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01394873

L. Sorbier, Catalysis by Transition Metal Sulphides, pp.407-411, 2013.

P. S. Mendes, J. M. Silva, M. F. Ribeiro, A. Daudin, and C. Bouchy, From powder to extrudate zeolite-based bifunctional hydroisomerization catalysts: on preserving zeolite integrity and optimizing Pt location, Journal of Industrial and Engineering Chemistry, vol.62, pp.72-83, 2018.

S. Kasztelan, N. Marchal-george, T. Cseri, P. Leyrit, P. Dascotte et al., , 2003.

C. Legens and P. Raybaud, Catalysis by Transition Metal Sulphides, pp.259-300, 2013.

H. Toulhoat and P. Raybaud, Catalysis by Transition Metal Sulphides, pp.3-23, 2013.

J. Francis, E. Guillon, N. Bats, C. Pichon, A. Corma et al., Design of improved hydrocracking catalysts by increasing the proximity between acid and metallic sites, Applied Catalysis A: General, vol.409-410, pp.140-147, 2011.

I. Graça, L. V. González, M. C. Bacariza, A. Fernandes, C. Henriques et al., CO2 hydrogenation into CH4 on NiHNaUSY zeolites, Applied Catalysis B: Environmental, vol.147, pp.101-110, 2014.

C. Lamonier and E. Payen, Catalysis by Transition Metal Sulphides, pp.151-181, 2013.

B. Hedman, Multicomponent polyanions. 16. The molecular and crystal structure of Na6Mo5P2O23(H2O)14, a compound containing sodium-coordinated pentamolybdodiphosphate anions, Acta Crystallographica Section B Structural Crystallography and Crystal Chemistry, vol.33, issue.10, pp.3083-3090, 1977.

A. , Félix-Paul Codaccioni. <italic>De l'inégalité sociale dans une grande ville industrielle: Le drame de Lille de 1850 à 1914</italic>. Lille: Université de Lille III. 1976. Pp. vi, 444. 50 fr, The American Historical Review, 1978.

F. Alvarez, F. R. Ribeiro, G. Perot, C. Thomazeau, and M. Guisnet, Hydroisomerization and Hydrocracking of Alkanes, Journal of Catalysis, vol.162, issue.2, pp.179-189, 1996.

P. S. Mendes, J. M. Silva, M. F. Ribeiro, P. Duchêne, A. Daudin et al., Quantification of metal-acid balance in hydroisomerization catalysts: A step further toward catalyst design, AIChE Journal, vol.63, issue.7, pp.2864-2875, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01581867

J. A. Martens, P. A. Jacobs, and J. Weitkamp, Attempts to rationalize the distribution of hydrocracked products. I qualitative description of the primary hydrocracking modes of long chain paraffins in open zeolites, Applied Catalysis, vol.20, issue.1-2, pp.239-281, 1986.

J. A. Martens, P. A. Jacobs, and J. Weitkamp, Attempts to rationalize the distribution of hydrocracked products. II. Relative rates of primary hydrocracking modes of long chain paraffins in open zeolites, Applied Catalysis, vol.20, issue.1-2, pp.283-303, 1986.

J. Weitkamp, Catalytic Hydrocracking-Mechanisms and Versatility of the Process, ChemCatChem, vol.4, issue.3, pp.292-306, 2012.

J. W. Thybaut, C. S. Laxmi-narasimhan, J. F. Denayer, G. V. Baron, P. A. Jacobs et al., Acid?Metal Balance of a Hydrocracking Catalyst: Ideal versus Nonideal Behavior, Industrial & Engineering Chemistry Research, vol.44, issue.14, pp.5159-5169, 2005.