273 results on '"Rheingold, Arnold L."'
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2. Synthesis of Chiral Hypervalent Trifluoromethyl Organobismuth Complexes and Enantioselective Olefin Difluorocarbenation Screenings
3. The Utilization of Para ‐Substituted Triphenylphosphine Derivatives to Synthesize Highly Emissive Cyclometalated Platinum(II) Complexes
4. Configurational Lability at Tetrahedral Phosphorus: syn/anti‐Isomerization of a P‐Stereogenic Phosphiranium Cation by Intramolecular Epimerization at Phosphorus
5. Configurational Lability at Tetrahedral Phosphorus: syn/anti ‐Isomerization of a P‐Stereogenic Phosphiranium Cation by Intramolecular Epimerization at Phosphorus
6. An Active‐Site Sulfonate Group Creates a Fast Water Oxidation Electrocatalyst That Exhibits High Activity in Acid
7. An Active‐Site Sulfonate Group Creates a Fast Water Oxidation Electrocatalyst That Exhibits High Activity in Acid
8. Transition‐Metal Catalysis of Triene 6π Electrocyclization: The π‐Complexation Strategy Realized
9. Transition‐Metal Catalysis of Triene 6π Electrocyclization: The π‐Complexation Strategy Realized
10. Concomitant Polymorphism in an Organic Solid: Molecular and Crystal Structure and Intra‐ and Intermolecular Potential Contributions to tert ‐Butyl and Methyl Group Rotation
11. Dianionic Mononuclear Cyclo ‐P 4 Complexes of Zero‐Valent Molybdenum: Coordination of the Cyclo ‐P 4 Dianion in the Absence of Intramolecular Charge Transfer
12. Dianionic Mononuclear Cyclo ‐P 4 Complexes of Zero‐Valent Molybdenum: Coordination of the Cyclo ‐P 4 Dianion in the Absence of Intramolecular Charge Transfer
13. An Inhospitable Cryptand: The Importance of Conformational Freedom in Host-Guest Complexation
14. Cover Picture: Photolytic Reductive Elimination of White Phosphorus from a Mononuclear cyclo ‐P 4 Transition Metal Complex (Angew. Chem. Int. Ed. 6/2019)
15. Titelbild: Photolytic Reductive Elimination of White Phosphorus from a Mononuclear cyclo ‐P 4 Transition Metal Complex (Angew. Chem. 6/2019)
16. Ring opening polymerization and copolymerization of L‐lactide and ɛ‐caprolactone by bis ‐ligated magnesium complexes
17. Photolytic Reductive Elimination of White Phosphorus from a Mononuclear cyclo ‐P 4 Transition Metal Complex
18. Photolytic Reductive Elimination of White Phosphorus from a Mononuclear cyclo‐P4 Transition Metal Complex
19. Cover Picture: Controlled Expansion of a Strong‐Field Iron Nitride Cluster: Multi‐Site Ligand Substitution as a Strategy for Activating Interstitial Nitride Nucleophilicity (Angew. Chem. Int. Ed. 40/2018)
20. Titelbild: Controlled Expansion of a Strong‐Field Iron Nitride Cluster: Multi‐Site Ligand Substitution as a Strategy for Activating Interstitial Nitride Nucleophilicity (Angew. Chem. 40/2018)
21. Proton Spin‐Lattice Relaxation in Organic Molecular Solids: Polymorphism and the Dependence on Sample Preparation
22. Controlled Expansion of a Strong‐Field Iron Nitride Cluster: Multi‐Site Ligand Substitution as a Strategy for Activating Interstitial Nitride Nucleophilicity
23. Controlled Expansion of a Strong‐Field Iron Nitride Cluster: Multi‐Site Ligand Substitution as a Strategy for Activating Interstitial Nitride Nucleophilicity
24. Regioselective Formation of (E)‐β‐Vinylstannanes with a Topologically Controlled Molybdenum‐Based Alkyne Hydrostannation Catalyst
25. Regioselective Formation of (E)‐β‐Vinylstannanes with a Topologically Controlled Molybdenum‐Based Alkyne Hydrostannation Catalyst
26. Inversion of Configuration at the Phosphorus Nucleophile in the Diastereoselective and Enantioselective Synthesis of P‐Stereogenic syn ‐Phosphiranes from Chiral Epoxides
27. Inversion of Configuration at the Phosphorus Nucleophile in the Diastereoselective and Enantioselective Synthesis of P‐Stereogenic syn‐Phosphiranes from Chiral Epoxides
28. Structures of a Complex Hydrazinium Lead Iodide, (N2 H5 )15 Pb3 I21 , Possessing [Pb2 I9 ]5− , [PbI6 ]4− , and I− Ions and α- and β-(N2 H5 )PbI3
29. Cover Feature: Magnesium Reagents Featuring a 1,1′‐Bis( o ‐carborane) Ligand Platform (Eur. J. Inorg. Chem. 38‐39/2017)
30. Terminal Iron Carbyne Complexes Derived from Arrested CO 2 Reductive Disproportionation
31. Terminal Iron Carbyne Complexes Derived from Arrested CO 2 Reductive Disproportionation
32. Magnesium Reagents Featuring a 1,1′‐Bis( o ‐carborane) Ligand Platform
33. Oxidative‐Insertion Reactivity Across a Geometrically Constrained Metal→Borane Interaction
34. Oxidative‐Insertion Reactivity Across a Geometrically Constrained Metal→Borane Interaction
35. Inside Back Cover: On the Way to a Trisanionic {Cu3 O2 } Core for Oxidase Catalysis: Evidence of an Asymmetric Trinuclear Precursor Stabilized by Perfluoropinacolate Ligands (Chem. Eur. J. 34/2017)
36. On the Way to a Trisanionic {Cu3O2} Core for Oxidase Catalysis: Evidence of an Asymmetric Trinuclear Precursor Stabilized by Perfluoropinacolate Ligands
37. A Masked Phosphinidene Trapped in a Fluxional NCN Pincer
38. Ruthenium Complexes of 2,2′-Bipyridine-6,6′-diphosphonate Ligands for Water Oxidation
39. The Tetracyanopyridinide Dimer Dianion, σ‐[TCNPy] 2 2−
40. Monomeric Chini‐Type Triplatinum Clusters Featuring Dianionic and Radical‐Anionic π*‐Systems
41. Monomeric Chini‐Type Triplatinum Clusters Featuring Dianionic and Radical‐Anionic π*‐Systems
42. ChemInform Abstract: Synthesis of a Luminescent Azaphosphole.
43. Synthesis of a Luminescent Azaphosphole
44. ChemInform Abstract: Actinobenzoquinoline and Actinophenanthrolines A—C, Unprecedented Alkaloids from a Marine Actinobacterium.
45. Facile Rearrangement of the 6,11‐Diphenyldibenzo[b,f][1,4]diazocine Skeleton into a Substituted 2‐(2‐Aminophenyl)‐1,3‐diphenylisoindole via Anomalous Carbolithiation or Hydrolithiation: Corroboration of Operative SET Processes
46. Cover Picture: A New Conformation With an Extraordinarily Long, 3.04 Å Two-Electron, Six-Center Bond Observed for the π-[TCNE]2 2− Dimer in [NMe4 ]2 [TCNE]2 (TCNE=Tetracyanoethylene) (Chem. Eur. J. 38/2015)
47. Kinetic Destabilization of Metal–Metal Single Bonds: Isolation of a Pentacoordinate Manganese(0) Monoradical
48. Kinetic Destabilization of Metal–Metal Single Bonds: Isolation of a Pentacoordinate Manganese(0) Monoradical
49. Exploiting Atropisomerism to Increase the Target Selectivity of Kinase Inhibitors
50. Exploiting Atropisomerism to Increase the Target Selectivity of Kinase Inhibitors
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