about
Trapping Aluminum Hydroxide Clusters with Trisilanols during Speciation in Aluminum(III)-Water Systems: Reproducible, Large Scale Access to Molecular Aluminate Models.A Hexanuclear Iron(II) Layer with Two Square-Planar FeO4 Units Spanned by Tetrasiloxide Ligands: Mimicking of Minerals and Catalysts.Bismuthanes as Hemilabile Donors in an O2 -Activating Palladium(0) Complex.O2 activation at a trispyrazolylborato nickel(ii) malonato complex.Activation of Small Molecules at Nickel(I) Moieties.Activation of Dioxygen at a Lewis Acidic Nickel(II) Complex: Characterization of a Metastable Organoperoxide Complex.Comparing Isomeric Tridentate Carbazole-Based Click Ligands: Metal Complexes and Redox Chemistry.A Biomimetic Nickel Complex with a Reduced CO2 Ligand Generated by Formate Deprotonation and its Behaviour towards CO2.Structure and Reactivity of Al-O(H)-Al Moieties in Siloxide Frameworks - Solution and Gas phase Model StudiesSpecific decoration of a discrete bismuth oxido cluster by selected peptides toward the design of metal tagsMercaptothiacalixarenes Steer 24 Copper(I) Centers to form a Hollow-Sphere Structure Featuring Cu2 S2 Motifs with Exceptionally Short Cu⋅⋅⋅Cu DistancesSelectivity of tungsten mediated dinitrogen splitting vs. proton reductionThe Behavior of Trispyrazolylborato-Metal(II)-Flavonolate Complexes as Functional Models for Bacterial Quercetinase-Assessment of the Metal ImpactThe Influence of Alkali Metal Ions on the Stability and Reactivity of Chromium(III) Superoxide Moieties Spanned by Siloxide LigandsOxygen-Depleted Calixarenes as Ligands for Molecular Models of Galactose OxidaseSwitching from a Chromium(IV) Peroxide to a Chromium(III) Superoxide upon Coordination of a Donor in the trans PositionRoutes to Heterotrinuclear Metal Siloxide Complexes for Cooperative Activation of O2
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Q38844775-8F22BDEB-ECC4-4519-BD77-65394892C5A7Q48175639-FB5DE1C5-DFB2-41FC-A139-9E4DA1111F62Q48222980-D9481990-34CE-4ABB-9B52-72C7BBD49B27Q48235024-69A9FB79-3A4C-4A86-BE19-3D71E4A3C424Q48266714-9B93D305-40D1-43A3-9B8B-EA58C8621207Q48325401-32E95D0A-74C7-49E5-9B05-D99ADD785F9DQ48371112-D22AF4BA-C041-4372-BA0C-62D740F05D81Q52325409-59AA2209-44D5-4C4D-9946-B740AFE814CFQ57795489-896D1F93-8C5F-4B0C-A089-9461719D29CAQ57796443-CAF98DD7-38EB-4907-9C03-F8814203DB73Q89490734-1E3A983B-C924-4D5D-9087-10BB116E4960Q89940801-4FECFF6F-B3BD-4069-9ACC-1ACE61DF9C97Q90012575-671150DF-C3D3-48FA-A438-A37300DDF4CEQ91474049-D208BE8C-5771-401B-8D69-AF362D7BC95CQ92813806-FCAFB444-FB3A-42CB-AFEC-C4A28448DD67Q92955369-F58BF697-B24A-4A56-8189-B9C68ED0CA42Q93336638-CB7E4A0D-9AA2-4692-9255-EAEB2771DF9D
P50
description
researcher
@en
name
Christian Limberg
@en
type
label
Christian Limberg
@en
prefLabel
Christian Limberg
@en
P31
P496
0000-0002-0751-1386