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Results: 1-11 |
Results: 11
Generation of hydrogen peroxide directly from H-2 and O-2 using CO2 as thesolvent
Authors: Hancu, D Beckman, EJ
Citation: D. Hancu et Ej. Beckman, Generation of hydrogen peroxide directly from H-2 and O-2 using CO2 as thesolvent, GREEN CHEM, 3(2), 2001, pp. 80-86
The hydronium tetrafluoroborate dimer in nonpolar media and its proton NMRspectrum
Authors: Farcasiu, D Lukinskas, P Hancu, D
Citation: D. Farcasiu et al., The hydronium tetrafluoroborate dimer in nonpolar media and its proton NMRspectrum, J MOL MODEL, 6(2), 2000, pp. 171-176
Production of hydrogen peroxide in liquid CO2. 3. Oxidation of CO2-philic anthrahydroquinones
Authors: Hancu, D Beckman, EJ
Citation: D. Hancu et Ej. Beckman, Production of hydrogen peroxide in liquid CO2. 3. Oxidation of CO2-philic anthrahydroquinones, IND ENG RES, 39(8), 2000, pp. 2843-2848
Theoretical studies of carbocations in ion pairs. 5. Structures and interconversion of the 3-methyl-2-butyl cation and 2,3-dimethyl-1-protonated cyclopropane
Authors: Farcasiu, D Norton, SH Hancu, D
Citation: D. Farcasiu et al., Theoretical studies of carbocations in ion pairs. 5. Structures and interconversion of the 3-methyl-2-butyl cation and 2,3-dimethyl-1-protonated cyclopropane, J AM CHEM S, 122(4), 2000, pp. 668-676
Toward the development of "CO2-philic" hydrocarbons. 1. Use of side-chain functionalization to lower the miscibility pressure of polydimethylsiloxanes in CO2
Authors: Fink, R Hancu, D Valentine, R Beckman, EJ
Citation: R. Fink et al., Toward the development of "CO2-philic" hydrocarbons. 1. Use of side-chain functionalization to lower the miscibility pressure of polydimethylsiloxanes in CO2, J PHYS CH B, 103(31), 1999, pp. 6441-6444
Ab initio calculations of the O-17 NMR chemical shift of hydronium and dihydroxonium ions in their fluoroborates: Comparison with experiment
Authors: Farcasiu, D Hancu, D
Citation: D. Farcasiu et D. Hancu, Ab initio calculations of the O-17 NMR chemical shift of hydronium and dihydroxonium ions in their fluoroborates: Comparison with experiment, J PHYS CH A, 103(6), 1999, pp. 754-761
Production of hydrogen peroxide in liquid CO2. I. Design, synthesis, and phase behavior of CO2-miscible anthraquinones
Authors: Hancu, D Beckman, EJ
Citation: D. Hancu et Ej. Beckman, Production of hydrogen peroxide in liquid CO2. I. Design, synthesis, and phase behavior of CO2-miscible anthraquinones, IND ENG RES, 38(7), 1999, pp. 2824-2832
Production of hydrogen peroxide in liquid CO2. 2. Catalytic hydrogenation of CO2-philic anthraquinones
Authors: Hancu, D Beckman, EJ
Citation: D. Hancu et Ej. Beckman, Production of hydrogen peroxide in liquid CO2. 2. Catalytic hydrogenation of CO2-philic anthraquinones, IND ENG RES, 38(7), 1999, pp. 2833-2841
Green processing using ionic liquids and CO2
Authors: Blanchard, LA Hancu, D Beckman, EJ Brennecke, JF
Citation: La. Blanchard et al., Green processing using ionic liquids and CO2, NATURE, 399(6731), 1999, pp. 28-29
Hydrogen peroxide
Authors: Beekman, EJ Hancu, D
Citation: Ej. Beekman et D. Hancu, Hydrogen peroxide, CHEMTECH US, 29(2), 1999, pp. 2
Theoretical studies of carbocations in ion pairs. 4. The interconversion of the 1-propyl cation and protonated cyclopropane
Authors: Farcasiu, D Hancu, D
Citation: D. Farcasiu et D. Hancu, Theoretical studies of carbocations in ion pairs. 4. The interconversion of the 1-propyl cation and protonated cyclopropane, J AM CHEM S, 121(31), 1999, pp. 7173-7181
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