Influence of peripheral substitution on the magnetic behavior of single-ion magnets based on homo- and heteroleptic Tb(III) bis(phthalocyaninate).
about
Peripheral substitution: an easy way to tuning the magnetic behavior of tetrakis(phthalocyaninato) dysprosium(III) SMMsA layered erbium phosphonate in pseudo-D(5h) symmetry exhibiting field-tunable magnetic relaxation and optical correlation.Constraining the coordination geometries of lanthanide centers and magnetic building blocks in frameworks: a new strategy for molecular nanomagnets.The rise of 3-d single-ion magnets in molecular magnetism: towards materials from molecules?Lanthanide Complexes with Multidentate Oxime Ligands as Single-Molecule Magnets and Atmospheric Carbon Dioxide Fixation Systems.Linear 3d-4f compounds: synthesis, structure, and determination of the d-f magnetic interaction.Rational enhancement of the energy barrier of bis(tetrapyrrole) dysprosium SMMs via replacing atom of porphyrin core.High symmetry or low symmetry, that is the question - high performance Dy(iii) single-ion magnets by electrostatic potential designA single-ion magnet based on a heterometallic Co(III) 2 Dy(III) complex.Influencing the properties of dysprosium single-molecule magnets with phosphorus donor ligandsMagnetic behaviour of TbPc2 single-molecule magnets chemically grafted on silicon surface.A {Cr(III)₂Dy(III)₂} single-molecule magnet: enhancing the blocking temperature through 3d magnetic exchange.Large spin-relaxation barriers for the low-symmetry organolanthanide complexes [Cp*2 Ln(BPh4 )] (Cp*=pentamethylcyclopentadienyl; Ln=Tb, Dy).Influence of Guest Exchange on the Magnetization Dynamics of Dilanthanide Single-Molecule-Magnet Nodes within a Metal-Organic Framework.Experimental and Theoretical Studies on the Magnetic Anisotropy in Lanthanide(III)-Centered Fe3 Ln Propellers.Giant coercivity and high magnetic blocking temperatures for N23- radical-bridged dilanthanide complexes upon ligand dissociation.A family of one-dimensional lanthanide complexes bridged by two distinct carboxylate ligands with the Dy analogue displaying magnetic relaxation behaviour.Two Series of Homodinuclear Lanthanide Complexes: Greatly Enhancing Energy Barriers through Tuning Terminal Solvent Ligands in Dy2 Single-Molecule Magnets.Phthalocyanine supported dinuclear LnIII complexes: the solvent-induced change of magnetic properties in dysprosium(iii) analogues.Dy(iii)-Carboxylate chain containing quasi-D5h sites exhibits enhanced energy barrier for magnetization reversal.Self-Assembly of TbPc2 Single-Molecule Magnets on Surface through Multiple Hydrogen Bonding.Unprecedented hexagonal bipyramidal single-ion magnets based on metallacrowns.Is a strong axial crystal-field the only essential condition for a large magnetic anisotropy barrier? The case of non-Kramers Ho(iii) versus Tb(iii ).A series of tetraazalene radical-bridged M2 (M = CrIII, MnII, FeII, CoII) complexes with strong magnetic exchange coupling.Syntheses, structures, and magnetic properties of a family of end-on azido-bridged CuII-LnIII complexes.Analysis of the Role of Peripheral Ligands Coordinated to Zn(II) in Enhancing the Energy Barrier in Luminescent Linear Trinuclear Zn-Dy-Zn Single-Molecule Magnets.A trimetallic strategy towards ZnDyCr and ZnDyCo single-ion magnets.Rare single-molecule magnets with six-coordinate Ln(III) ions exhibiting a trigonal antiprism configuration.Dinuclear dysprosium SMMs bridged by a neutral bipyrimidine ligand: two crystal systems that depend on different lattice solvents lead to a distinct slow relaxation behaviour.Lanthanoid single-ion magnets with the LnN10 coordination geometry.Lanthanide dinuclear complexes constructed from mixed oxygen-donor ligands: the effect of substituent positions of the neutral ligand on the magnetic dynamics in Dy analogues.Can Non-Kramers Tm(III) Mononuclear Molecules be Single-Molecule Magnets (SMMs)?Lanthanide salen-type complexes exhibiting single ion magnet and photoluminescent properties.Homochiral mononuclear Dy-Schiff base complexes showing field-induced double magnetic relaxation processes.Modulation of the relaxation dynamics of linear-shaped tetranuclear rare-earth clusters through utilizing different solvents.An unprecedented zero field neodymium(iii) single-ion magnet based on a phosphonic diamide.Bis-phenoxido and bis-acetato bridged heteronuclear {Co(III)Dy(III)} single molecule magnets with two slow relaxation branches.Slow magnetic relaxation of light lanthanide-based linear LnZn2 trinuclear complexes.Synthesis, structure, and physical properties of new rare earth ferrocenoylacetonates.A heterometallic Fe(II)-Dy(III) single-molecule magnet with a record anisotropy barrier.
P2860
Q35153316-11D955F8-163A-4168-AC26-A4BFE4F19F4CQ35180174-4D18E049-BDE6-42E9-80CC-58EFF818A52BQ38786940-A02469BF-2C6C-4622-B15F-DA5515DA17EDQ38878997-8335C4E6-0E1D-4BEC-B1BF-09E2A869E1C3Q40673627-7476272E-075B-43F6-B122-D3B78CCCD456Q40844295-FA56C370-5820-4659-82A8-554F893856BDQ41098788-2DE49549-BF6E-407A-B0C4-2AB04812857EQ41098807-A66E0930-54FA-4EC7-9715-9E8D783C32C4Q41444400-8F0A5B5B-C3A8-4ABA-B6AC-D0A0865C52B0Q41970140-775B3881-685F-4ADE-9018-4A77B00A4C6AQ42785179-00EA9EA3-7E9C-4D10-9F7C-195C2BFD1F83Q43709152-63E6E188-D8BE-4A8C-B20E-6B4C5A1CD45FQ43962269-80F9F5CB-571B-4146-8FF5-52DFC39DBAF6Q46104018-DD62638A-4E82-4FD3-89AC-09D4F88F93AEQ46700176-8BB52D62-BA1B-4612-B01D-285ACD97EA15Q47138766-9DB224EC-24E4-4518-B337-DF5B3B5E4566Q47665115-C15235E2-485B-4DA2-A803-605059F9E8F7Q47755436-59C2789E-3A9D-4334-B9E4-EF7B222BC742Q48046528-A33835D4-1DFE-4590-920E-A72535FDC816Q48050193-072D75EE-96BA-40AD-80F6-DEED1AF63FC1Q48143739-9C96A84D-6B46-46A4-AD73-F89270AA34BFQ48271642-89AAAC94-7F06-4F1D-9A0F-DBE80AF0840FQ50033861-24775F76-705B-4AD3-B4F2-915C48CD8B67Q50052768-05F2F192-F029-4FDF-A0E7-BD42097C3AC2Q50866165-5E3BCAF2-4633-408A-A23D-5249E14B567CQ50936490-3BD6CD28-8D07-407B-A41D-A71FF8C2C50CQ50947837-7EAC3959-945A-4770-BFB6-CF7612160795Q51300872-A5DA4C19-F47C-4579-B8DA-87C57E5719F0Q51346345-5B82E664-3003-462E-B960-4FEFE6D2DCF5Q51371852-3DF41C95-3CBE-4201-A4A3-612D5561DDBDQ51534706-A8753146-0237-4AC7-B132-A864749206E7Q51558330-AB086232-96EC-448F-AE3F-BD882F6A9BE4Q51566703-4F383E26-9B9A-479B-BE89-0E3CF0865AD3Q51623813-897647FD-C8DA-4E78-9834-96968A227D7FQ52810172-55B722FB-C990-4BAE-ACC8-4F53FA376167Q53097597-82994892-9240-4EA6-9EBD-3A4B12B6765AQ53130270-A3705446-F662-4053-903C-682658C1988BQ53184556-F491981E-DE7A-4027-9D5B-EA374EDEDD61Q53211089-7FF5BEAA-3E0E-4468-B072-2351700F12FCQ53434205-BB6E9BC5-CF07-469B-BD25-F4CFF95BED21
P2860
Influence of peripheral substitution on the magnetic behavior of single-ion magnets based on homo- and heteroleptic Tb(III) bis(phthalocyaninate).
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh-hant
name
Influence of peripheral substi ...... d on homo- and heteroleptic Tb
@nl
Influence of peripheral substi ...... Tb(III) bis(phthalocyaninate).
@en
type
label
Influence of peripheral substi ...... d on homo- and heteroleptic Tb
@nl
Influence of peripheral substi ...... Tb(III) bis(phthalocyaninate).
@en
prefLabel
Influence of peripheral substi ...... d on homo- and heteroleptic Tb
@nl
Influence of peripheral substi ...... Tb(III) bis(phthalocyaninate).
@en
P2093
P50
P356
P1476
Influence of peripheral substi ...... Tb(III) bis(phthalocyaninate)
@en
P2093
Beatriz Ballesteros
Carolina R Ganivet
Gema de la Torre
P304
P356
10.1002/CHEM.201202600
P407
P577
2012-11-29T00:00:00Z