Adsorption, high throughput, CO2, porous material, volumetry, zlc, breakthrough, catalytic measurements, reactors
EDUCATION
2017: PhD in Chemistry, University of lyon (France)
1998: Master degree in Chemical Engineering, University of Pau
1998 : Engineering degree, Ecole Nationale Supérieure en Génie des Technologies Industrielles, University of Pau, France
PARCOURS
I joint CNRS in 2000 at Design Engineer in Instrumentation, in order to develop new catalytic measurements setups. I dimensioned catalytic units and designed P&ID, including gas flow, instruments, reactors and analysis choices.
In 2011 I reached the position of Research Engineer in Analytical Chemistry. Simultaneously I started a PhD supported by a European project. My research work focused on focuses on direct synthesis of Dimethyl Carbonate [DMC] starting from methanol and CO2 using a triphasic stirred reactor in liquid phase.Along the same time, I developed and managed an analytic platform of volumetric adsorption instruments.
I defended my PhD in 2017 (Synthèse du carbonate de diméthyle par carboxylation du méthanol catalysée par des oxydes mixtes de cérium et de zirconium : relation structure–activité, étude mécanistique et cinétique).
Since 2017, my research and developments task focuses on adsorption techniques including both dynamic and static setups as Zero Length Column, Volumetric instruments customized for vapors, breakthough instruments designed for specific applications including parallel screening of adsorbents.
APPLICATIONS (since 2017)
-Heat pumps (H2O)
-Shaping of porous material
-Transport and diffusion in microporous material
-Capture and separation, purification
SKILLS:
-Adsorption tools (designing, performing, and interpreting) by isotherms, breakthrough and ZLC
-Characterization of porous materials
-Design of catalytic testing unit both in liquid and gas phase for activity measurements
-On-line analysis of gases applied to catalysis: Infrared, GC, mass spectrometry
-High throughput experimentation (HTS) on Flowrence unit by Avantium
Zuniega J., Grabulos J., Lebrun M., Aumond T., Daniel C., Brat P., Farrusseng D.
INTERNATIONAL JOURNAL OF FOOD SCIENCE AND TECHNOLOGY, 2023, p.
Cardenas C., Farrusseng D., Daniel C.
Modeling of Water Vapor Adsorption and Desorption in an Industrial Medical Air Dryer
INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2023, 62(31), pp. 12315-12328
Daniel C., Farrusseng D., Schuurman Y.
CATALYSIS COMMUNICATIONS, 2023, 179, p.
Ursueguia D., Daniel C., Collomb C., Cardenas C., Farrusseng D., Diaz E., Ordonez S.
Evaluation of HKUST-1 as Volatile Organic Compound Adsorbents for Respiratory Filters
LANGMUIR, 2022, p.
Cardenas C., Farrusseng D., Daniel C., Aubry R.
Modeling of equilibrium water vapor adsorption isotherms on activated carbon, alumina and hopcalite
FLUID PHASE EQUILIBRIA, 2022, 561, p.
Pagis C., Laprune D., Roiban L., Epicier T., Daniel C., Tuel A., Farrusseng D., Coasne B.
INORGANIC CHEMISTRY FRONTIERS, 2022, 9(12), pp. 2903-2916
Urmes C., Daniel C., Schweitzer J., Cabiac A., Julcour C., Schuurman Y.
Microkinetic Modeling of Acetylene Hydrogenation Under Periodic Reactor Operation
CHEMCATCHEM, 2022, 14(8), p. e202101826
Lions M., Daniel C., Coasne B., Meunier F., Tuel A., Farrusseng D.
JOURNAL OF PHYSICAL CHEMISTRY C, 2021, 125(41), pp. 22890-22897
Chapelliere Y., Daniel C., Tuel A., Farrusseng D., Schuurman Y.
Kinetics of n-Hexane Cracking over Mesoporous HY Zeolites Based on Catalyst Descriptors
CATALYSTS, 2021, 11(6), p.
Daniel C., Schuurman Y., Farrusseng D.
JOURNAL OF CATALYSIS, 2021, 394, pp. 486-494
Farrusseng D., Daniel C., Hamill C., Casaban J., Didriksen T., Blom R., Velte A., Fueldner G., Gantenbein P., Persdorf P., Daguenet-Frick X., Meunier F.
Adsorber heat exchanger using Al-fumarate beads for heat-pump applications - a transport study
FARADAY DISCUSSIONS, 2021, 225, pp. 384-402
Hazemann P., Decottignies D., Maury S., Humbert S., Berliet A., Daniel C., Schuurman Y.
Kinetic data acquisition in high-throughput Fischer-Tropsch experimentation
CATALYSIS SCIENCE & TECHNOLOGY, 2020, 10(21), pp. 7331-7343
Morgado Prates A., Daniel C., Pagis C., Schuurman Y., Tuel A., Farrusseng D.
Faster transport in hollow zeolites
Microporous and Mesoporous Materials, 2020, 308, p. 110499
Daniel C., Schuurman Y., Farrusseng D.
New journal of chemistry, 2020, 44, pp. 6312-6320
Pizzoccaro-Zilamy M., Pina S., Rebiere B., Daniel C., Farrusseng D., Drobek M., Silly G., Julbe A., Guerrero G.
Rsc advances, 2019, 9, pp. 19882-19894
Cai W. J., Wang F. G., Daniel C., Van Veen A. C., Schuurman Y., Descorme C., Provendier H., Shen W. J., Mirodatos C.
Oxidative steam reforming of ethanol over Ir/CeO2 catalysts: A structure sensitivity analysis
Journal of Catalysis, 2012, 286, pp. 137-152
Fortunato M. A., Aubert D., Capdeillayre C., Daniel C., Hadjar A., Princivalle A., Guizard C., Vernoux P.
Applied Catalysis A - General, 2011, 403, pp. 18-24
Boudjemaa A., Daniel C., Mirodatos C., Trari M., Auroux A., Bouarab R.
Comptes Rendus Chimie, 2011, 14, pp. 534-538
Canivet J., Aguado S., Daniel C., Farrusseng D.
Engineering the Environment of a Catalytic Metal-Organic Framework by Postsynthetic Hydrophobization
ChemCatChem, 2011, 3, pp. 675-678
Daniel C., Clarte M. O., Teh S. P., Thinon O., Provendier H., Van Veen A. C., Beccard B. J., Schuurman Y., Mirodatos C.
Journal of Catalysis, 2010, 272, pp. 55-64
Daniel C., Clarte M. O., Provendier H., Van Veen A. C., Schuurman Y., Beccard B., Mirodatos C.
Comptes Rendus Chimie, 2009, 12, pp. 647-653
Farrusseng D., Daniel C., Gaudillere C., Ravon U., Schuurman Y., Mirodatos C., Dubbeldam D., Frost H., Snurr R. Q.
Langmuir, 2009, 25, pp. 7383-7388
Morra G., Desmartin-Chomel A., Daniel C., Ravon U., Farrusseng D., Cowan R., Krusche A., Mirodatos C.
Chemical Engineering Journal, 2008, 138, pp. 379-388
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