about
Millisecond Coherence Time in a Tunable Molecular Electronic Spin Qubit.A mononuclear transition metal single-molecule magnet in a nuclear spin-free ligand environment.Qubit Control Limited by Spin-Lattice Relaxation in a Nuclear Spin-Free Iron(III) Complex.(BiSe)1.23CrSe2 and (BiSe)1.22(Cr1.2Se2)2: magnetic anisotropy in the first structurally characterized Bi-Se-Cr ternary compounds.Slow magnetic relaxation in a family of trigonal pyramidal iron(II) pyrrolide complexes.Slow magnetic relaxation in a high-spin iron(II) complex.Symmetry-breaking substitutions of [Re(CN)8]3- into the centered, face-capped octahedral clusters (CH3OH)24M9M'6(CN)48 (M = Mn, Co; M = Mo, W).Strong magnetic exchange coupling in the cyano-bridged coordination clusters [(PY5Me2)4V4M(CN)6]5+ (M = Cr, Mo).Enhancement of magnetic anisotropy in a Mn-Bi heterobimetallic complex.A redox-switchable single-molecule magnet incorporating [Re(CN)7]3-.Employing Forbidden Transitions as Qubits in a Nuclear Spin-Free Chromium Complex.Slow magnetic relaxation and charge-transfer in cyano-bridged coordination clusters incorporating [Re(CN)(7)](3-/4-).Synthetic Approach To Determine the Effect of Nuclear Spin Distance on Electronic Spin Decoherence.Probing Nuclear Spin Effects on Electronic Spin Coherence via EPR Measurements of Vanadium(IV) Complexes.Magnetic Anisotropy from Main-Group Elements: Halides versus Group 14 Elements.A Porous Array of Clock Qubits.Discovery of a Superconducting Cu-Bi Intermetallic Compound by High-Pressure Synthesis.Unexpected suppression of spin-lattice relaxation via high magnetic field in a high-spin iron(iii) complex.A flexible iron(ii) complex in which zero-field splitting is resistant to structural variation.Transformation of the coordination complex [Co(CS)] from a molecular magnet to a potential qubitMultiple Quantum Coherences from Hyperfine Transitions in a Vanadium(IV) ComplexInfluence of Electronic Spin and Spin–Orbit Coupling on Decoherence in Mononuclear Transition Metal ComplexesFrustrated magnetism in the S = 1 kagomé lattice BaNi3(OH)2(VO4)2Dinitrogen binding at vanadium in a tris(alkoxide) ligand environmentSite Specific X-ray Anomalous Dispersion of the Geometrically Frustrated Kagomé Magnet, Herbertsmithite, ZnCu3(OH)6Cl2A Cu2+(S=1/2) Kagomé Antiferromagnet: MgxCu4−x(OH)6Cl22,3-Dihydroxy-N-methylbenzamide monohydrateHigh-Pressure Synthesis: A New Frontier in the Search for Next-Generation Intermetallic CompoundsImpact of Pressure on Magnetic Order in JarositeDiscovery of Cu3PbMagnetic Anisotropy in Heterobimetallic ComplexesA concentrated array of copper porphyrin candidate qubitsMetal-ligand covalency enables room temperature molecular qubit candidatesControl of the Porosity in Manganese Trimer-Based Metal-Organic Frameworks by Linker Functionalization
P50
Q36786655-7F881B90-5E1C-43DF-B4EF-65FA59D6AFC3Q39133080-16A306F3-8B67-4A9D-9587-F230C48D6E58Q40228677-0EF5ACED-CB93-4F67-86E0-CB35B593FA40Q41366956-5B6E323B-C02D-4A1B-896A-ADE2B48B118FQ42782353-072576D6-337E-4C82-8227-9BA560F8067FQ43200624-5A031B31-B210-4EA1-B149-36F8D1C2AEC5Q44064212-991E020F-423A-4B09-8EA1-504E08AC44FEQ46338953-009DB3F2-F578-46B0-BE0B-55E91E16ECF9Q46481088-2876DE90-E4FB-4187-AA0D-C92E74404CBCQ46524713-FA5E57E0-326E-4E59-A3CB-00D33240DB75Q46614271-D7DB4A93-B0D4-4FB9-A2A2-B46C2FE61016Q46715250-F52E3D93-9132-48B9-9670-9BC3D3CA71CAQ48048452-59756623-CCBE-4E11-A2B1-1CC5FB841B93Q48058827-74C68328-10F4-4729-BD14-E560B939D475Q48202711-93D5B227-2C13-45DF-ACEE-343B5AFAD82BQ48218610-650EFE30-B818-4940-9932-58F8C3ED7D0AQ51154067-A8CB9B61-BB7C-437D-AEE8-7CE05A6A8BC2Q52985320-D8E54741-53EE-4653-B1B2-71E14127A78AQ55442457-9C4D0B68-A6B4-4B48-8B94-8B78590A6550Q59434569-77D0CCD3-2558-4114-9866-AD03DC1F398AQ59434574-3944CB6C-0F8A-44A0-8AA6-31B21A776AC0Q59434576-27EBC57E-5A30-4FBC-9333-E0EAC703D28EQ59434579-DFC8D1AF-1E88-497B-9DAE-1A33289FE0C0Q59434584-B445FF1B-6A74-4BAA-BE6D-8532EA377F2EQ59434586-F4D684A1-394C-4286-9266-7D137981B53DQ59434588-F0240846-1118-4925-A708-D562AC98740AQ59434592-BE2CE7F5-8C6A-48D0-A844-C2475EAC242BQ88891613-95FBD57C-49BA-4B77-BC57-EB48640B52FAQ90664138-A0F2DED5-9ECB-40B5-B0EC-503A8351FAF9Q91720755-ED5B8A6B-02AD-4FDF-9186-7B4209608BEDQ91733144-7CF5CDDD-A7D5-4CD7-A986-37D51B0D97F5Q92180867-EA360EAB-009B-4CF4-95D2-E2994A7FDA55Q92324792-01F8DF87-B90C-4A1B-B754-83B536730F6AQ95941329-304F17B9-6376-44D9-B94B-CE3755EC67DB
P50
description
inorganic chemist, researcher
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wetenschapper
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հետազոտող
@hy
name
Danna E Freedman
@ast
Danna E Freedman
@en
Danna E Freedman
@es
Danna E Freedman
@nl
Danna E Freedman
@sl
type
label
Danna E Freedman
@ast
Danna E Freedman
@en
Danna E Freedman
@es
Danna E Freedman
@nl
Danna E Freedman
@sl
altLabel
Danna Freedman
@en
prefLabel
Danna E Freedman
@ast
Danna E Freedman
@en
Danna E Freedman
@es
Danna E Freedman
@nl
Danna E Freedman
@sl
P106
P21
P31
P496
0000-0002-2579-8835