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EPFL scientists have completed their solution for transforming hydrogen gas into a less flammable liquid fuel that can be safely stored and transported.

Latest Publications

Towards Hydrogen Storage through an Efficient Ruthenium-Catalyzed Dehydrogenation of Formic Acid

Z. Xin; J. Zhang; K. Sordakis; M. Beller; C. Du et al.

ChemSusChem. 2018.

DOI : 10.1002/cssc.201800408.

Homogeneous Catalytic Formic Acid Dehydrogenation in Aqueous Solution using Ruthenium Arene Phosphine Catalysts

C. Fink; L. Chen; G. Laurenczy

Z. Anorg. Allg. Chem.. 2018.

DOI : 10.1002/zaac.201800107.

Intricacies of Cation-Anion Combinations in Imidazolium Salt-Catalyzed Cycloaddition of CO2 Into Epoxides

F. D. Bobbink; D. Vasilyev; M. Hulla; S. Chamam; F. Menoud et al.

ACS Catalysis. 2018.

DOI : 10.1021/acscatal.7b04389.

High-pressure NMR spectroscopic and calorimetric studies on formic acid dehydrogenation and carbon dioxide hydrogenation

C. Fink / G. Laurenczy (Dir.)

Lausanne, EPFL, 2018.

DOI : 10.5075/epfl-thesis-8739.

Hydrogen storage in the carbon dioxide/formic acid system, using homogeneous iron(II)-phosphine catalysts in aqueous solution

M. Montandon-Clerc / G. Laurenczy (Dir.)

Lausanne, EPFL, 2018.

DOI : 10.5075/epfl-thesis-8594.

Homogeneous Catalysis for Sustainable Hydrogen Storage in Formic Acid and Alcohols

K. Sordakis; C. Tang; L. K. Vogt; H. Junge; P. J. Dyson et al.

Chemical Reviews. 2018.

DOI : 10.1021/acs.chemrev.7b00182.

Additive free, room temperature direct homogeneous catalytic carbon dioxide hydrogenation in aqueous solution using an iron(II) phosphine catalyst

M. Montandon-Clerc; G. Laurenczy

Journal of Catalysis. 2018.

DOI : 10.1016/j.jcat.2018.03.030.

Towards a frustrated Lewis pair-ionic liquid system

F. G. Perrin; F. D. Bobbink; E. Paunescu; Z. Fei; R. Scopelliti et al.

Inorganica Chimica Acta. 2018.

DOI : 10.1016/j.ica.2017.07.045.