about
Simple Access to the Heaviest Alkaline Earth Metal Hydride: A Strongly Reducing Hydrocarbon-Soluble Barium Hydride Cluster.Calcium stilbene complexes: structures and dual reactivity.Calcium Hydride Reactivity: Formation of an Anionic N-Heterocyclic Olefin Ligand."Masked" Lewis-acidity of an aluminum α-phosphinoamide complex.A Simple Route to Calcium and Strontium Hydride Clusters.β-Diketiminate calcium hydride complexes: the importance of solvent effects.Self-Assembly of Magnesium Hydride Clusters Driven by Chameleon-Type Ligands.Facile Benzene Reduction by a Ca /Al Lewis Acid/Base CombinationHighly Efficient Encapsulation and Phase Separation of Apolar Molecules by Magnetic Shell-by-Shell-Coated Nanocarriers in WaterHighly Lewis acidic cationic alkaline earth metal complexesLiAlH4 : From Stoichiometric Reduction to Imine Hydrogenation CatalysisHighly Active Superbulky Alkaline Earth Metal Amide Catalysts for Hydrogenation of Challenging Alkenes and Aromatic RingsEarly Main Group Metal Catalysts for Imine HydrosilylationAlkene Transfer Hydrogenation with Alkaline-Earth Metal CatalystsSimple Alkaline-Earth Metal Catalysts for Effective Alkene HydrogenationNucleophilic Aromatic Substitution at Benzene with Powerful Strontium Hydride and Alkyl ComplexesLewis acidic alkaline earth metal complexes with a perfluorinated diphenylamide ligandMagnesium Cyanide or Isocyanide?Calcium-Catalyzed Arene C-H Bond Activation by Low-Valent AlILow Valent Magnesium Chemistry with a Super Bulky β-Diketiminate LigandComplexation and Versatile Reactivity of a Highly Lewis Acidic Cationic Mg Complex with Alkynes and Phosphines
P50
Q46261042-BBD186C4-7A98-4003-BAA9-ACB0ECB6BC1BQ48122357-C1A58337-34E1-4E16-89F3-6214B8153F23Q48186215-354BD73F-F704-4BD6-8F85-8047563B8D90Q48187977-80CB505B-F9C3-4A7B-816F-D8391A0F9102Q48283382-C80FFEC6-AA10-44B5-85B9-00B1EBA5620CQ48324814-879BCCB5-6A38-4075-944F-329A9AD6A541Q48330455-AC2D96EB-4907-4DCF-A98C-E574CFA02239Q57800960-B5E22F47-D1FA-4919-8844-4E3BA85BBE41Q58231801-64DFB0E8-1F99-40FA-8EC1-AB3A1831A835Q64458155-CEFD9A8B-4DDB-42DD-9E15-0F193D6F38B7Q88439655-F1C3869E-7C59-4C61-AA0F-7FFFA6C50657Q89653915-35AC8752-0C4A-4E4B-AE68-D9A4FF6E3D93Q90741114-A99A19A2-C486-4CF7-984D-EA606855BEA9Q91153057-56B7CB72-5264-46FE-9699-E76123D6F651Q91534142-A58DE692-F61F-4C58-ACF2-F30E2311FC1CQ91805347-600F021B-EB6D-4BC1-AB6F-0C9C1D6B820FQ91844809-5962B890-50C1-40B4-9CF4-A29979E3202BQ92954910-EFAB665C-0E40-446F-A2A5-3E9D3829F315Q92980329-2CFEBB95-8CD9-4B43-BA9B-87109AAB277AQ93031256-5280D3E4-DE2E-49F1-8826-0C1A3048A30CQ93090681-D1655B59-2492-40A5-A449-1EEA3C4E8901
P50
description
researcher
@en
wetenschapper
@nl
name
Sjoerd Harder
@en
Sjoerd Harder
@nl
type
label
Sjoerd Harder
@en
Sjoerd Harder
@nl
prefLabel
Sjoerd Harder
@en
Sjoerd Harder
@nl
P31
P496
0000-0002-3997-1440