Formic acid as a hydrogen source–recent developments and future trends M Grasemann, G Laurenczy Energy & Environmental Science 5 (8), 8171-8181, 2012 | 1154 | 2012 |
In vitro and in vivo evaluation of ruthenium (II)− arene PTA complexes C Scolaro, A Bergamo, L Brescacin, R Delfino, M Cocchietto, G Laurenczy, ... Journal of medicinal chemistry 48 (12), 4161-4171, 2005 | 954 | 2005 |
Homogeneous catalysis for sustainable hydrogen storage in formic acid and alcohols K Sordakis, C Tang, LK Vogt, H Junge, PJ Dyson, M Beller, G Laurenczy Chemical reviews 118 (2), 372-433, 2018 | 906 | 2018 |
Efficient dehydrogenation of formic acid using an iron catalyst A Boddien, D Mellmann, F Gärtner, R Jackstell, H Junge, PJ Dyson, ... Science 333 (6050), 1733-1736, 2011 | 822 | 2011 |
A viable hydrogen-storage system based on selective formic acid decomposition with a ruthenium catalyst C Fellay, PJ Dyson, G Laurenczy Angewandte Chemie, International Edition 47 (21), 3966-8, 2008 | 707 | 2008 |
Direct synthesis of formic acid from carbon dioxide by hydrogenation in acidic media S Moret, PJ Dyson, G Laurenczy Nature communications 5 (1), 4017, 2014 | 653 | 2014 |
A well‐defined iron catalyst for the reduction of bicarbonates and carbon dioxide to formates, alkyl formates, and formamides C Federsel, A Boddien, R Jackstell, R Jennerjahn, PJ Dyson, R Scopelliti, ... Angewandte Chemie International Edition 50 (49), 9777-9780, 2010 | 528 | 2010 |
Hydrogen storage: beyond conventional methods AF Dalebrook, W Gan, M Grasemann, S Moret, G Laurenczy Chemical communications 49 (78), 8735-8751, 2013 | 462 | 2013 |
A novel platinum nanocatalyst for the oxidation of 5-Hydroxymethylfurfural into 2, 5-Furandicarboxylic acid under mild conditions S Siankevich, G Savoglidis, Z Fei, G Laurenczy, DTL Alexander, N Yan, ... Journal of Catalysis 315, 67-74, 2014 | 272 | 2014 |
Selective formic acid decomposition for high‐pressure hydrogen generation: a mechanistic study C Fellay, N Yan, PJ Dyson, G Laurenczy Chemistry–A European Journal 15 (15), 3752-3760, 2009 | 255 | 2009 |
In vitro evaluation of rhodium and osmium RAPTA analogues: The case for organometallic anticancer drugs not based on ruthenium A Dorcier, WH Ang, S Bolano, L Gonsalvi, L Juillerat-Jeannerat, ... Organometallics 25 (17), 4090-4096, 2006 | 225 | 2006 |
Metal‐free catalyst for the chemoselective methylation of amines using carbon dioxide as a carbon source S Das, FD Bobbink, G Laurenczy, PJ Dyson Angewandte Chemie International Edition 53 (47), 12876-12879, 2014 | 204 | 2014 |
Recent progress for reversible homogeneous catalytic hydrogen storage in formic acid and in methanol N Onishi, G Laurenczy, M Beller, Y Himeda Coordination Chemistry Reviews 373, 317-332, 2018 | 198 | 2018 |
Cycloaddition of CO 2 to epoxides catalyzed by imidazolium-based polymeric ionic liquids S Ghazali-Esfahani, H Song, E Păunescu, FD Bobbink, H Liu, Z Fei, ... Green Chemistry 15 (6), 1584-1589, 2013 | 192 | 2013 |
Influence of the interaction between hydrogen sulfide and ionic liquids on solubility: experimental and theoretical investigation CS Pomelli, C Chiappe, A Vidis, G Laurenczy, PJ Dyson The Journal of Physical Chemistry B 111 (45), 13014-13019, 2007 | 186 | 2007 |
Homogeneous hydrogenation of carbon dioxide and bicarbonate in aqueous solution catalyzed by water-soluble ruthenium (II) phosphine complexes J Elek, L Nádasdi, G Papp, G Laurenczy, F Joó Applied Catalysis A: General 255 (1), 59-67, 2003 | 186 | 2003 |
Formation and Characterization of Water-Soluble Hydrido-Ruthenium(II) Complexes of 1,3,5-Triaza-7-phosphaadamantane and Their Catalytic Activity in Hydrogenation of CO2 and … G Laurenczy, F Joó, L Nádasdi Inorganic chemistry 39 (22), 5083-5088, 2000 | 185 | 2000 |
Determination of hydrogen concentration in ionic liquids and the effect (or lack of) on rates of hydrogenation PJ Dyson, G Laurenczy, CA Ohlin, J Vallance, T Welton Chemical communications, 2418-2419, 2003 | 182 | 2003 |
Towards the development of a hydrogen battery A Boddien, C Federsel, P Sponholz, D Mellmann, R Jackstell, H Junge, ... Energy & Environmental Science 5 (10), 8907-8911, 2012 | 163 | 2012 |
How strong is hydrogen bonding in ionic liquids? Combined X-ray crystallographic, infrared/Raman spectroscopic, and density functional theory study SA Katsyuba, MV Vener, EE Zvereva, Z Fei, R Scopelliti, G Laurenczy, ... The Journal of Physical Chemistry B 117 (30), 9094-9105, 2013 | 158 | 2013 |