about
Twisted molecular magnets.Synthesis of Migrastatin Analogues as Inhibitors of Tumour Cell Migration: Exploring Structural Change in and on the Macrocyclic Ring.A family of double-bowl pseudo metallocalix[6]arene discs.Two heptacopper(II) disk complexes with a [Cu(7)(μ(3)-OH)(4)(μ-OR)(2)](8+) core.Twisting, bending, stretching: strategies for making ferromagnetic [Mn(III)3] triangles.A F-bridged Mn(II) molecular square.New routes to high nuclearity cages: a fluoride-based hexaicosametallic manganese cage.Ferromagnetic exchange in a twisted, oxime-bridged [Mn(III)2] dimer.A novel undecametallic iron(III) cluster with an S = (11)/(2) spin ground state.New routes to high nuclearity clusters: fluoride-based octametallic and tridecametallic clusters of manganese.Theoretical study of the magnetic behavior of [Fe8] and [Fe16] wheels.New routes to polymetallic clusters: fluoride-based tri-, deca-, and hexaicosametallic MnIII clusters and their magnetic properties.Constructing clusters with enhanced magnetic properties by assembling and distorting Mn3 building blocks.1D chains of Mn6 single-molecule magnets.A cobalt metallacrown anion host with guest-dependent redox activity.Rare tetranuclear mixed-valent [Mn(II)2Mn(IV)2] clusters as building blocks for extended networks.Using pyridine amidoximes in 3d-metal cluster chemistry: a novel ferromagnetic Ni12 complex from the use of pyridine-2-amidoxime.Grafting derivatives of Mn6 single-molecule magnets with high anisotropy energy barrier on Au111 surface.Ammonium, alkylammonium, and amino acid complexes of a hexacopper fluoro-metallacrown cavitand.Synthesis of an Orthogonally Protected Polyhydroxylated Cyclopentene from l-Sorbose.Four copper(II) pyrazolido complexes derived from reactions of 3{5}-substituted pyrazoles with CuF(2) or Cu(OH)(2).A Hexacopper Fluoro Metallacrown Cavitand and its Alkali-Metal ComplexesGround Spin State Changes and 3 D Networks of Exchange Coupled [MnIII3] Single-Molecule MagnetsNew structural types and different oxidation levels in the family of Mn6-oxime single-molecule magnetsVARIABLE FREQUENCY EPR STUDIES OF A CENTERED FeIII TETRAHEDRONAttempting to understand (and control) the relationship between structure and magnetism in an extended family of Mn6 single-molecule magnetsFerromagnetic NiIIDiscsEnhancing SMM properties via axial distortion of MnIII3 clustersHomo- and heterometallic planes, chains and cubanesSynthetic, structural, spectroscopic and theoretical study of a Mn(iii)–Cu(ii) dimer containing a Jahn–Teller compressed Mn ionInvestigating the solid state hosting abilities of homo- and hetero-valent [Co7] metallocalix[6]arenesWhat Controls the Magnetic Interaction in bis-μ-Alkoxo MnIII Dimers? A Combined Experimental and Theoretical ExplorationAccidentally on purpose: construction of a ferromagnetic, oxime-based [MnIII2] dimerMagnetism in metal–organic capsules1,2,3-Triazolate-Bridged Tetradecametallic Transition Metal Clusters [M14(L)6O6(OMe)18X6] (M = FeIII, CrIIIand VIII/IV) and Related Compounds: Ground-State Spins Ranging fromS= 0 toS= 25 and Spin-Enhanced Magnetocaloric EffectSolvothermal Synthesis of a Tetradecametallic FeIII ClusterOctametallic and Hexadecametallic Ferric WheelsCrowding out: ligand modifications and their structure directing effects on brucite-like {Mx(μ3-OH)y} (M = Co(ii), Ni(ii)) core growth within polymetallic cagesMolecular Pac-Man and Tacos: layered Cu(II) cages from ligands with high binding site concentrationsSynthesis of Migrastatin Analogues as Inhibitors of Tumour Cell Migration: Exploring Structural Change in and on the Macrocyclic Ring
P50
Q34011084-0B1CD092-1CC5-4DC6-B0D7-EBE6E19DCFF8Q38821930-D4745D06-BB03-4F6E-8394-553912688507Q42742836-13AAC31E-8A9F-4C40-B1B9-317DB73D183EQ42823372-4EAE1EDF-9A7C-4BDF-B6AB-F5173DD10BACQ43070842-4A1263B7-90BC-4B19-905A-4F3DB07F62CAQ43244674-D9A86894-42B1-444F-978A-51993DE7AA4DQ44284179-8A90ABD8-284D-4950-874B-829243A6571AQ44384586-4739E0DB-A528-4D1A-86B9-01DFC5129AE3Q44613938-A8567B5A-821D-490D-81FD-409D1776E828Q44631368-25E6DA2A-38B6-432A-8660-37BB64C18113Q45017734-24C57005-9587-4434-A6C7-F451F28EA1B8Q45062662-ABD15BC1-D5FC-4A1C-8252-388656783404Q46068191-64B1CC45-123B-4ED6-8267-804629FF94E5Q46068233-69FA5D2A-9D39-472A-AA74-26B7E6E83315Q46081212-9D4BEF9D-B13D-4B70-96B8-92E644FAC00FQ46394651-CD195BBE-76AA-46D4-B594-A93273E7322AQ46439679-754823C5-63D9-4DD6-BD60-667B19EEA413Q46469276-345AD23D-BE9A-434F-AEB6-8C2FDBB0F503Q46929649-3863A866-61D4-46AA-A2C8-8F43DFBFCB80Q48199383-E8C97BA4-3B8E-44EE-A5BC-14DF566CEB47Q52854142-8DE4DFFC-3771-41EC-8B40-D4742D01C7CFQ56481317-1CF8DAAA-2AAE-4F37-9282-95AF15C234FEQ58239114-7FADD6D7-C073-4594-BCC0-2608974F3FF9Q58239116-6420F961-70BA-4276-BE77-A6D4A5C1BC54Q59433017-05E7C8FC-6CF0-4C6E-B4F0-D0F8032F0890Q59440632-6FBDF46F-03C7-4219-B037-73C73E6DCD0CQ59440637-38FB446E-1539-4502-B245-7FB9A4A08E5AQ59440659-E67FCE5B-F207-4792-BE2D-FEB7281A0F60Q59460559-CAC74ABC-1654-4FB1-8772-6A4C4DE10EA4Q59460568-948A625B-319E-417D-ABF0-268563A6D599Q59460577-9D0113F0-F1E9-40BE-972E-B3CC30F4ED53Q59460596-5C4D313A-EC69-4D50-803F-AC5B2D5E8DDDQ59460599-E353681D-4016-4C61-9FC6-3AF1D422C329Q59460640-6F007214-95D6-4A02-B1D0-D1507FF93DC1Q59460691-8CE8EB5B-0FD2-40E3-9EE0-D8710D7C45D5Q59460741-5BC71CA7-EAA0-4AEF-8EE1-DBE4DD7B3578Q59460746-DB60C972-3887-4091-B897-C7A66E16E073Q63349915-A247873C-817D-4A5F-BECF-769776DF16FDQ85507813-84A608DF-4CAB-49BD-ADBF-840AA228A8B7Q86617964-6D99DD74-D6BA-4766-8093-1516FD7A10C9
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Leigh F Jones
@nl
Leigh F Jones
@sl
Leigh F. Jones
@en
Leigh F. Jones
@es
type
label
Leigh F Jones
@nl
Leigh F Jones
@sl
Leigh F. Jones
@en
Leigh F. Jones
@es
prefLabel
Leigh F Jones
@nl
Leigh F Jones
@sl
Leigh F. Jones
@en
Leigh F. Jones
@es
P106
P108
P1153
23018404100
P31
P496
0000-0001-6801-3826