His research on Organic chemistry often connects related topics like Nickel. François Fajula performs integrative study on Catalysis and Microreactor. Nanotechnology and Mesoporous material are two areas of study in which François Fajula engages in interdisciplinary research. He incorporates Inorganic chemistry and Catalysis in his studies. He carries out multidisciplinary research, doing studies in Adsorption and Mesoporous material. His study ties his expertise on Composite material together with the subject of Porosity. In most of his Composite material studies, his work intersects topics such as Porosity. In his work, he performs multidisciplinary research in Polymer chemistry and Organic chemistry. His research combines Micelle and Aqueous solution.
Zeolite, Mesoporous material and Selectivity are all intrinsically tied to his study in Catalysis. Organic chemistry connects with themes related to Porosity in his study. He combines Inorganic chemistry and Catalysis in his research. François Fajula combines Adsorption and Mesoporous material in his research. His Physical chemistry study frequently draws connections to other fields, such as Adsorption. His research links Organic chemistry with Aqueous solution.
As part of one scientific family, François Fajula deals mainly with the area of Hexagonal crystal system, narrowing it down to issues related to the Crystallography, and often Crystal structure and Amorphous solid. François Fajula has begun a study into Zeolite, looking into Ferrierite and Acid strength. In his research, François Fajula undertakes multidisciplinary study on Ferrierite and Zeolite. The study of Methyl orange and Anatase are components of his Photocatalysis research. While working on this project, François Fajula studies both Anatase and Photocatalysis. His Chemical engineering study frequently draws parallels with other fields, such as Dissolution. His Dissolution study typically links adjacent topics like Chemical engineering. Borrowing concepts from Isomerization, he weaves in ideas under Catalysis. His research on Organic chemistry frequently links to adjacent areas such as Phase (matter).
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True Microporosity and Surface Area of Mesoporous SBA-15 Silicas as a Function of Synthesis Temperature
Anne Galarneau;Hélène Cambon;and Francesco Di Renzo;François Fajula.
Study of the state of aluminium in zeolite-β
Elodie Bourgeat-Lami;Pascale Massiani;Francesco Di Renzo;Pierre Espiau.
Applied Catalysis (1991)
Zeolite Y crystals with trimodal porosity as ideal hydrocracking catalysts.
Krijn P. de Jong;Jovana Zečević;Heiner Friedrich;Petra E. de Jongh.
Angewandte Chemie (2010)
Nickel-based solid catalysts for ethylene oligomerization – a review
Annie Finiels;François Fajula;Vasile Hulea.
Catalysis Science & Technology (2014)
Hydrocarbon Adsorption in the Flexible Metal Organic Frameworks MIL-53(Al, Cr)
Thuy Khuong Trung;Philippe Trens;Nathalie Tanchoux;Sandrine Bourrelly.
Journal of the American Chemical Society (2008)
MCM-41 type silicas as supports for immobilized catalysts
Daniel Brunel;Anne Cauvel;François Fajula;Francesco DiRenzo.
Studies in Surface Science and Catalysis (1995)
Transition-metal ligands bound onto the micelle-templated silica surface
Daniel Brunel;Nathalie Bellocq;Pierre Sutra;Anne Cauvel.
Coordination Chemistry Reviews (1998)
Validity of the t-plot method to assess microporosity in hierarchical micro/mesoporous materials.
Anne Galarneau;François Villemot;François Villemot;Jeremy Rodriguez;François Fajula.
Thermal and mechanical stability of micelle-templated silica supports for catalysis
Anne Galarneau;Delphine Desplantier-Giscard;Francesco Di Renzo;François Fajula.
Catalysis Today (2001)
Ni-exchanged AlMCM-41—An efficient bifunctional catalyst for ethylene oligomerization
Vasile Hulea;François Fajula.
Journal of Catalysis (2004)
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