about
A well-defined terminal vanadium(III) oxo complex.Oxidation chemistry of axially protected Mo(2) and W(2) quadruply bonded compounds.Exchange coupling and magnetic blocking in bipyrimidyl radical-bridged dilanthanide complexes.Dinuclear Cobalt Complexes with a Decadentate Ligand Scaffold: Hydrogen Evolution and Oxygen Reduction Catalysis.A comparative study of magnetization dynamics in dinuclear dysprosium complexes featuring bridging chloride or trifluoromethanesulfonate ligands.Hard Single-Molecule Magnet Behavior by a Linear Trinuclear Lanthanide-[1]Metallocenophane Complex.Slow Magnetic Relaxation in a Lanthanide-[1]Metallocenophane Complex.Electrocatalytic CO2 Reduction by Imidazolium-Functionalized Molecular Catalysts.Transition metal redox switches for reversible "on/off" and "slow/fast" single-molecule magnet behaviour in dysprosium and erbium bis-diamidoferrocene complexes.Structure and Magnetization Dynamics of Dy-Fe and Dy-Ru Bonded ComplexesOxidative Stretching of Metal–Metal Bonds to Their LimitsDo Metal-Metal Multiply-Bonded “Ligands” Have atransInfluence? Structural and Magnetic Comparisons of Heterometallic CrCr···Co and MoMo···Co InteractionsIntroducing a metal-metal multiply bonded group as an "axial ligand" to iron: synthetic design of a linear Cr-Cr...Fe frameworkChemically reversible four-electron oxidation and reduction utilizing two inorganic functional groupsRemarkable regioselectivity in the preparation of the first heterotrimetallic Mo[quadruple bond]W...Cr chainGroup 6 complexes with iron and zinc heterometals: understanding the structural, spectroscopic, and electrochemical properties of a complete series of M≡M···M' compoundsRemote effects of axial ligand substitution in heterometallic Cr≡Cr···M chainsMagnetic Properties of a Terbium-[1]Ferrocenophane Complex: Analogies between Lanthanide-Ferrocenophane and Lanthanide-Bis-phthalocyanine ComplexesTuning Second Coordination Sphere Interactions in Polypyridyl-Iron Complexes to Achieve Selective Electrocatalytic Reduction of Carbon Dioxide to Carbon MonoxideTowards understanding of lanthanide-transition metal bonding: investigations of the first Ce-Fe bonded complexSynergistic Effects of Imidazolium-Functionalization on fac-Mn(CO)3 Bipyridine Catalyst Platforms for Electrocatalytic Carbon Dioxide ReductionKinetic versus thermodynamic metalation enables synthesis of isostructural homo- and heterometallic trinuclear clusters
P50
Q39148303-6B8EC754-F041-496D-8AA3-BFFA3B5B6CC3Q43239785-32530382-683B-42F9-B9DB-B876181CE6DBQ43879325-FFDEF09D-A9C0-47B5-80FD-B5ABD66BB793Q46579660-F8EB1C5A-E11B-4AE8-B5A2-C2B49EF48404Q48135626-D78A2B69-24E4-498E-A69E-EA7B944AEDA5Q48197477-DEC34302-C700-4B9F-B20E-33BDB6485805Q48314054-FAE6D857-7598-42C9-B736-59142E629224Q48330688-1A6FA076-9B85-4859-9D60-CEE086280797Q52345392-37B8468F-7684-4BAE-9F40-7D3AE6718A21Q57141160-3912DCE2-79A3-48C9-80E1-72729FF5C519Q59464189-750C4492-BE1F-4E3E-B30B-A02B2A5EEC23Q60110470-4A6AE19F-4070-462C-9781-6F3A54192017Q81362293-70AB5CC0-6810-4A18-B490-7D09DBB35A73Q83408582-920CA134-6B7B-40DF-BC75-4BD5F94DE179Q84218327-94691D51-E006-4999-BB31-5E51DA219640Q84558050-B6DDB43B-CF06-4848-96BD-DD2F0A888498Q84966518-A65239D9-8722-4120-A468-DB80B3B820A0Q88592179-00357D19-BEEE-4856-9685-DD7E7E6520E7Q90652938-8C6C5B6E-E2A9-458C-B891-DD3088291D66Q91395364-02361B9A-B316-4955-845C-B665667F17DDQ92699477-7638C802-F012-4408-9045-8CF4D4119559Q93335593-EB3F435F-14CE-4A4B-B2D4-666A9A856AE1
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Michael Nippe
@ast
Michael Nippe
@en
Michael Nippe
@es
Michael Nippe
@nl
Michael Nippe
@sl
type
label
Michael Nippe
@ast
Michael Nippe
@en
Michael Nippe
@es
Michael Nippe
@nl
Michael Nippe
@sl
prefLabel
Michael Nippe
@ast
Michael Nippe
@en
Michael Nippe
@es
Michael Nippe
@nl
Michael Nippe
@sl
P1053
A-6222-2015
P106
P31
P496
0000-0003-1091-4677