| P.01 | Energy-efficient CO2-capture with solutions based on ionic liquids |
| V. López López, M. Petermann, Ruhr-University Bochum/D | |
| P.02 | Ionic liquids for CO2 capture |
| T. Schubert, B. Iliev, Iolitec Ionic Liquids Technologies GmbH, Heilbronn/D | |
| P.03 | Carbon dioxide chemistry: carbon capture/ activation and subsequent conversion cancelled by author |
| L. He, Z. Yang, A. Liu, Nankai University, Tianjin/PRC | |
| P.04 | Metal complexes with tridentate ligands as catalysts for copolymerization reaction of carbon dioxide and epoxides cancelled by author |
| A. Masdeu-Bultó, S. Iksi, A. Aghmiz, Universitat Rovira i Virgili, Tarragona/E; F. El Guemmout, Université Abdelmalek Essaadi, Tetouan/MA |
|
| P.05 | Synthesis and characterization of new mono and dinuclear imidazolium salts |
| N. Wunderlich, S. Dommer, J. Völkl, W. Arlt, J. Schatz, University of Erlangen-Nuremberg/D | |
| P.06 | Supercritical CO2 - A magic green solvent for catalytic hydrogenation and nano-materials fabrication |
| F. Zhao, J. Ming, H. Cheng, Y. Yu, Changchun Institute of Applied Chemistry/PRC | |
| P.07 | Fast and accurate determination of the reaction kinetics of cellulose hydrolysis in ionic liquids using in-situ ATR-FTIR |
| A.J. Kunov-Kruse, A. Riisager, S. Shunmugavel, R.W. Berg, S.B. Kristensen, R. Fehrmann, Technical University of Denmark, Lyngby/DK |
|
| P.08 | Cyclic process with recovery and recycling of [Bmim][Cl] in the full enzymatic saccharification of cellulose |
| B. Bernal, I. Recio, University of Murcia/E; M.P. Belleville, University Montpellier-2/F; P. Lozano, University of Murcia/E | |
| P.09 | Versatility of chloroindate(III) ionic liqudis: from mild Lewis acidic catalysts to precursors for indium(0) nanoparticle synthesis |
| J. Estager, P. Nockemann, K.R. Seddon, G. Srinivasan, M. Swadzba-Kwasny, S. Tyrrell, The Queen's University of Belfast/UK |
|
| P.10 | Rockwood lithium: green solutions for process optimization and recycling |
| E. Gorman, B. Munsch, Rockwood Lithium, Frankfurt/D; S. Minter, Rockwood Lithium, New Johnsonville, TN/USA | |
| P.11 | [Pd(IPr*)(cinnamyl)Cl]: a new highly active pre-catalyst for cross-coupling reactions |
| A. Chartoire, M. Lesieur, X. Frogneux, A. Boreux, University of St. Andrews/UK; L. Falivene, Università di Salerno/I; A. M. Z. Slawin, University of St. Andrews/UK; L. Cavallo, Università di Salerno/I; C. S. J. Cazin, S. P. Nolan, University of St. Andrews/UK |
|
| P.12 | Enzymatic production of biolubricant in a continuous flow reactor using different non-conventional media |
| L. Dr. Gubicza, D. Németh, G. Tóth, J. Madarász, J. Dr. Bakos, University of Pannonia, Veszprém/H | |
| P.13 | Synthesis of glycerol derivatives solvents |
| M. De Torres, J. M. Fraile, E. García-Bordejé, G. Jiménez-Osés, J. A. Mayoral, E. Pires, CSIC-University Zaragoza/E |
|
| P.14 | Isosorbide tert-butyl ethers as green solvents |
| K. Thenert, R. Pfützenreuter, M. Rose, R. Palkovits, RWTH Aachen University/D | |
| P.15 | Selective conversion of biomass-derived substrates to 1-octanol and 1,1-dioctylether |
| J. Julis, University of St. Andrews and RWTH Aachen University/UK; M. Hölscher, RWTH Aachen University/D; D. Cole-Hamilton, University of St. Andrews/UK; W. Leitner, RWTH Aachen University/D |
|
| P.16 | Molten salt modified catalysts for hydrogen generation from ammonia and methanol |
| S. Bajus, A. Bösmann, C. Busse, F. Enzenberger, M. Kusche, H. Niedermeyer, P. Wasserscheid, University of Erlangen-Nuremberg/D |
|
| P.17 | Preparation, characterization, catalytic and sorption properties of Ti-pillared montmorillonites |
| N. Zakarina, N.A. Kornauhova, D.V. Sokolsky, Institute of Organic Catalysis and Electrochemistry, Almaty/KAZ | |
| P.18 | A systematic study of effects of reaction conditions on AEL and a new synthesis method for AFI framework type of AlPOs: Ionothermal synthesis |
| M. M. Azim, P. With, R. Gläser, A. Stark, Universität Leipzig/D | |
| P.19 | Access to functionalized mixed alkylphosphonate esters and their application as alkylating agents in synthesis of ionic liquids |
| S. Sachnov, P.S. Schulz, P. Wasserscheid, University of Erlangen-Nuremberg/D | |
| P.20 | IL-Wind: Ionic liquids as lubricants for wind turbines |
| A. Westerholt, A. Bösmann, P. Wasserscheid, University of Erlangen-Nuremberg/D | |
| P.21 | Biomass processing using ionic liquids |
| T. Welton, S.M.S.N Shikh Zahari, J.P. Hallet, Imperial College London/UK; A. Brandt, Econic Technologies Ltd, London/UK; M.J. Ray, P. Li, J. Li, Imperial College London/UK | |
| P.22 | Synthesis of 2-oxazolidinones via catalytic cycloaddition of isocyanates and epoxides |
| I. Latorre Martinez, S. Basu, C. Gürtler, T. E. Müller, RWTH Aachen University/D | |
| P.23 | Continuous-flow hydrogenation of carbon dioxide to formic acid and its derivatives |
| B. Blas-Molinos, S. Wesselbaum, RWTH Aachen University/D; U. Hintermair, Yale University, New Haven, CT/USA; W. Leitner, RWTH Aachen University/D | |
| P.24 | Ionic liquids as a nice environment for metal ions |
| A. Barsanti, C. Chiappe, T. Ghilardi, C.S. Pomelli, Università di Pisa/I | |
| P.25 | Separation of biomass components using ionic liquids as solvent |
| T. Schubert, M. Smiglak, Iolitec Ionic Liquids Technologies GmbH, Heilbronn/D | |
| P.26 | A two-stage framework of inverse problems for computer-aided screening of reaction solvents |
| D.S. Wicaksono, A. Mhamdi, W. Marquardt, RWTH Aachen University/D | |
| P.27 | Model-based experimental analysis for reaction model identification |
| O. Tkacheva, S. Recker, W. Marquardt, RWTH Aachen University/D | |
| P.28 | Deep-eutectic-solvents: promising bio-based non-conventional media for biocatalysis |
| Z. Maugeri, P. Domínguez de María, RWTH Aachen University/D | |
| P.29 | Screening of ILs with COSMO-RS for the application in biphasic telomerisation reaction systems |
| L. Hopf, R. Wölfel, P. Wasserscheid, University of Erlangen-Nuremberg/D | |
| P.30 | Reaction of norbornene and norbornadiene with allylformates catalyzed by Pd complexes in acetonitrile and in ionic liquids |
| E. Evstigneeva, Moscow University of Fine Chemical Technologies/RUS | |
| P.31 | Towards continuous flow oligomerisation of olefins using cationic nickel-phosphoramidite catalysts |
| C. G. Piscopo, M. Schimtkamp, W. Leitner, G. Franciò, RWTH Aachen University/D | |
| P.32 | Continuous-flow asymmetric hydrogenation of low functionalized olefins in SILP/scCO2-systems |
| P. Schmitz, G. Franciò, W. Leitner, RWTH Aachen University/D; P. G. Andersson, X. Quan, Uppsala University/S |
|
| P.33 | Multiphase copper-catalyzed enantioselective Kharasch-Sosnovsky allylic oxidation based on neoteric solvents |
| L. Aldea, J. I. Garcia, J. A. Mayoral, CSIC-University Zaragoza/E | |
| P.35 | Simple preparation of various types of magnetic ionic liquids |
| Y. Takagi, Y. Yamashita, H. Onishi, Y. Kusunoki, Kagawa University, Takamatsu/J | |
| P.36 | Continuous flow catalysis with integrated catalyst separation |
| R. Duque, University of St. Andrews/UK; H. Clavier, Université Paul Cézanne, Marseille/F; M. Mauduit, Université de Genève/CH; S. P. Nolan, D. J. Cole-Hamilton, University of St. Andrews/UK | |
| P.37 | Integrated and hydrogen-free production of 2-methylfuran |
| S. Wanders, F. Geilen, J. Klankermayer, W. Leitner, RWTH Aachen University/D | |
| P.38 | Green attempts to improve Buchwald-Hartwig amination |
| M. Ciobanu, F. Neatu, A. Tirsoaga, V. Parvulescu, University of Bucharest/RO | |
| P.39 | Multiscale research approach to develop separation processes based on ionic liquids |
| J. Palomar, Universidad Autónoma de Madrid/E; M. Gonzalez-Miquel, Universidad Complutense de Madrid/E; E. Ruiz, J. Bedia, Universidad Autónoma de Madrid/E; F. Rodriguez, Universidad Complutense de Madrid/E; J.J. Rodriguez, Universidad Autónoma de Madrid/E |
|
| P.40 | Ionic liquid-functionalized ordered mesoporous silicas |
| M.T. Heinze, A.A. Nabulsi, Universität Leipzig/D; W.-D. Einicke, A. Stark, R. Gläser, Universität/D | |
| P.41 | Synthesis of nitriles in continuous-flow for sustainable chemical production |
| S. Buchholz, A. Prokofyeva, Bayer Technology Services, Leverkusen/D; R. Fehrmann, Technical University of Denmark, Kongens Lyngby/DK; V. Pârvulescu, University of Bucharest/RO | |
| P.42 | Adsorption and reactive deposition of FeCp2 and Fe(acac)3 on porous supports from supercritical carbon dioxide |
| P.C. With, M. Marx, S. Dietrich, R. Gläser, Institute of Chemical Technology, Universität Leipzig/D | |
| P.43 | N-substituted 3,4-dihydroisoquinolinium ionic liquids as catalysts in alkenes epoxidation reactions |
| S. Baj, M. Belch, Silesian University of Technology, Gliwice/PL | |
| P.44 | In situ synthesis of unsupported nickel-tungsten sulfides for the hydrodearomatization processes |
| A.S. Vilesov, I.A. Sizova, A.L. Maximov, A.V.Topchiev Institute of Petrochemical Synthesis of the Russian Academy of Sciences, Moscow/RUS | |
| P.45 | First steps towards a quantitative modeling of the solvent influence on lignin fractionation |
| P. Yamin, K. Leonhard, RWTH Aachen/D | |
| P.46 | Decomposition of fluorinated ionic liquids to fluoride ions in subcritical and supercritical water |
| H. Hori, Y. Noda, A. Takahashi, T. Sakamoto, Kanagawa University, Hiratsuka/J | |
| P.47 | Hight lysozyme solubility in hydrated protic ionic liquid medium |
| C. Stefan, Universitatea Dunarea de Jos Galati Romania, Galati/RO; M. Anouti, Universite Francois Rabelais, Tours/F | |
| P.48 | No-solvent continuous ester synthesis using carboxylate-based ionic liquids as reactants |
| B. Zhao, C. Ariaans, W. Leitner, M. Liauw, RWTH Aachen University/D; L. Greiner, DECHEMA-Forschungsinstitut, Frankfurt am Main/D | |
| P.49 | Rotational and translational diffusion of ionic liquids confined in nanoporous silica |
| C. Iacob, University of Leipzig/D; J.R Sangoro, Oak Ridge National Laboratory, TN/USA; J. Kärger, K. Kremer, University of Leipzig/D | |
| P.50 | In situ formation of MnOx nanoparticles in ionic liquids as environmentally benign catalysts for oxidation reactions |
| M.J. Beier, A.D. Jensen, A. Riisager, Technical University of Denmark, Lyngby/DK | |
| P.51 | Micellar catalysis in ionic liquids |
| K. Bica, TU Vienna/A | |
| P.52 | Novel aspects of biomass dissolution with ionic liquids: towards the production of the anti-viral drug Tamiflu |
| A. Ressmann, P. Gärtner, K. Bica, TU Vienna/A | |
| P.53 | The aldehyde-alkyne-amine (A3) coupling in solvents |
| S.A. Girard, C.-J. Li, Mc Gill University, Montreal/CDN | |
| P.54 | Phase transitions of chloride ionic liquids |
| M. Blesic, Polytechnic University of Milan/I; N.V. Plechkova, K.R. Seddon, The Queen's University of Belfast/UK; A.A. Tomaszowska, Procter & Gamble, Schwalbach am Taunus/D | |
| P.55 | Natural montmorillonite and kaolinite clays modified by iron in the cracking and water treatment |
| L.D. Volkova, N.A. Zakarina, O.K. Kim, D.V. Sokolsky Institute of Organic Catalysis and Electrochemistry, Almaty/KAZ | |
| P.56 | Dimethyl carbonate as a green solvent for the synthesis of platform chemicals from renewable lignin feedstocks |
| J.N.G. Stanley, M. Selva, A. Perosa, Ca' Foscari University of Venice/I | |
| P.57 | Greener synthesis of Tadalafil using dimethylcarbonate and ionic liquids |
| M.J. Earle, K.R. Seddon, The Queen's University of Belfast/UK; M. Noè, A. Perosa, Ca' Foscari University of Venice/I | |
| P.58 | "One-pot" telescoped synthesis of new N-acetyl-8-nitro-2-propyltetrahydrolepidines from 4-N-arylamino-1-heptenes cancelled by author |
| J. M. Urbina, S. Florez, Industrial University of Santander, Bucaramanga/CO | |
| P.59 | Brønsted acid catalyzed formation of ethyl levulinate and ethyl glucopyranoside from sugars |
| S. Shunmugavel, O. N. Van Buu, A. Riisager, Technical University of Denmark, Lyngby/DK | |
| P.60 | Continuous-flow asymmetric hydrogenation |
| G. Francio, U. Hintermair, Z. Zhang, J. Theuerkauf, W. Leitner, RWTH Aachen University, Aachen/D | |
| P.61 | Rhodium catalysed selective hydrogenation of dienes to monoenes in reversible ionic liquid solvents |
| I. de Wispelaere, RWTH Aachen University, Aachen/D; K. Wittmann, Max-Planck Institut für Kohlenforschung, Mülheim an der Ruhe/D; G. Francio, W. Leitner, RWTH Aachen University, Aachen/D | |
| P.62 | Stereoselective synthesis of cyclic carbonates from oleo-chemicals and CO2 using reversible ionic liquids and organic halides |
| I. de Wispelaere, J. Langanke, G. Francio, W. Leitner, RWTH Aachen University, Aachen/D |