SEARCH Articles Figures Tables A Selection of Cyclic Hydrogen-Bonding Patterns Formed in Nucleoside and Nucleotide Crystal Structures Alkenes cyclic, hydrogenation Asymmetric Hydrogenation of Cyclic Enamides Conjugated dienes cyclic, selective hydrogenation Cyclic Peptides through Hydrogen Bonding Cyclic alkane carbon-hydrogen Cyclic alkane carbon-hydrogen alkanes Cyclic alkenes, hydrogenation stereoselective Cyclic dienes, hydrogenation Cyclic enamides asymmetric hydrogenation Cyclic hydrogen-bonded dimers Cyclic hydrogen-bonded dimers density Cyclic hydrogen-bonded dimers function Cyclic hydrogenation Cyclic hydrogenation Cyclic imine hydrogenation: effective Cyclic imine hydrogenation: effective catalysts Cyclic imines, transfer hydrogenation Davydov coupling cyclic hydrogen-bonded dimers Diamines cyclic, intramolecular hydrogen Enantioselective hydrogenation cyclic imines Hydrogen abstraction, ketones cyclic systems Hydrogen bond cyclic Hydrogen bonding cyclic amides Hydrogen cyclic voltammograms Hydrogen cyclic water cleavage Hydrogen evolution cyclic voltammogram Hydrogen fluoride, reaction with cyclic Hydrogenated cyclic Hydrogenated cyclic PDMS Hydrogenated cyclic PDMS fractions Hydrogenated cyclic and linear PDMS Hydrogenated cyclic silanes Hydrogenation cyclic imine Hydrogenation cyclic ketone Hydrogenation of cyclic imines Hydrogenation-dehydrogenation cyclics Imines cyclic, hydrogenation Nanotubes from Hydrogen Bonded Cyclic Molecules Nanotubes from Hydrogen Bonded Cyclic Peptides Nanotubes from Hydrogen Bonded Cyclic Ureas Reactions of Cyclic Alkanes with Hydrogen The hydrogenation of cyclic molecules Transfer Hydrogenation of Acyclic and Cyclic Imines Transfer hydrogenation of cyclic imines