about
Metal-based anion receptors: an application of second-sphere coordination.Metal ions in the synthesis of interlocked molecules and materials.Coordination polymers containing rotaxane linkers.Metal-organic frameworks with dynamic interlocked components.Reversible mechanical protection: building a 3D "suit" around a T-shaped benzimidazole axle.One-, two- and three-periodic metal-organic rotaxane frameworks (MORFs): linking cationic transition-metal nodes with an anionic rotaxane ligand.Channels and cavities lined with interlocked components: metal-based polyrotaxanes that utilize pyridinium axles and crown ether wheels as ligands.Eliminating the need for independent counterions in the construction of metal-organic rotaxane frameworks (MORFs).Conformational behavior and coordination chemistry of 2,11-dithia[3.3]orthocyclophane with platinum group metals.Pseudo-polyrotaxanes based on a protonated version of the 1,2-bis(4,4'-bipyridinium)ethane-24-crown-8 ether motif.Host-guest interactions template: the synthesis of a [3]catenane.Metal-organic anion receptors: arranging urea hydrogen-bond donors to encapsulate sulfate ions.Release of free and conjugated forms of the putative pheromonal steroid 11-oxo-etiocholanolone by reproductively mature male round goby (Neogobius melanostomus Pallas, 1814).[2]Rotaxanes containing pyridinium-phosphonium axles and 24-crown-8 ether wheels.Metal-organic rotaxane frameworks: three-dimensional polyrotaxanes from lanthanide-ion nodes, pyridinium N-oxide axles, and crown-ether wheels.Metal-organic rotaxane frameworks; MORFs.Optical Distinction between "Slow" and "Fast" Translational Motion in Degenerate Molecular Shuttles.Branched [n]rotaxanes (n = 2-4) from multiple dibenzo-24-crown-8 ether wheels and 1,2-bis(4,4'-dipyridinium)ethane axles.NH vs. CH hydrogen bond formation in metal-organic anion receptors containing pyrrolylpyridine ligands.Controlling the ON/OFF threading of a terpyridine containing [2]pseudorotaxane ligand via changes in coordination geometry.Optically sensed, molecular shuttles driven by acid-base chemistry.A versatile template for the formation of [2]pseudorotaxanes. 1,2-Bis(pyridinium)ethane axles and 24-crown-8 ether wheels.Coordination polymers with 4,4'-bipyrimidine. Using a combination of endo- and exodentate donors to build a one-dimensional Ag(I) ladder and a heterometallic Co(II)Ag(I)2 network.Wire-type ruthenium(II) complexes with terpyridine-containing [2]rotaxanes as ligands: Synthesis, characterization, and photophysical properties.Acid-Base Switchable [2]- and [3]Rotaxane Molecular Shuttles with Benzimidazolium and Bis(pyridinium) Recognition Sites.Rotationally Active Ligands: Dialing-Up Multiple Interlocked Co-Conformations for Silver(I) Coordination.Metal-organic frameworks utilising an interlocked, hexadentate linker containing a tetra-carboxylate axle and a bis(pyridine) wheel.Rotationally Active Ligands: Dialing-Up the Co-conformations of a [2]Rotaxane for Metal Ion Binding.Influence of axle length on the rate and mechanism of shuttling in rigid H-shaped [2]rotaxanes.Metal–organic anion receptors: trans-functionalised platinum complexesHydrogen-bonded networks through second-sphere coordinationCooperative ion-ion interactions in the formation of interpenetrated moleculesPush-pull [2]pseudorotaxanes. Electronic control of threading by switching ON/OFF an intramolecular charge transfer4,4'-Bipyridine-N-monoxide. A hybrid ligand for building networks using a combination of metal-ligand and hydrogen-bonding interactions[2]pseudorotaxane formation with N-benzylanilinium axles and 24-crown-8 ether wheelsLinking [2]rotaxane wheels to create a new type of metal organic rotaxane frameworkA mechanical "flip-switch". Interconversion between co-conformations of a [2]rotaxane with a single recognition siteReactions of substituted pyridines with electrophilic boranesMolecular shuttling of a compact and rigid H-shaped [2]rotaxaneColour coding the co-conformations of a [2]rotaxane flip-switch
P50
Q37771273-92F5CE71-2933-472F-ABCC-2899D2513075Q39266551-076B18D9-3854-4D6F-89F1-1FCB75008E90Q39599152-6B28DC0B-3C5D-44FB-B8C5-2A3AD7500E22Q39615027-971FEB91-2783-4714-B838-EA24672BFEBDQ42211345-F8B6925D-625E-470F-AD22-DC419FEAFF25Q42793392-2A761B07-D8FD-4154-BF84-335844AD6301Q43275943-57189112-EBA9-4226-A468-7D752EE5F3ACQ43276775-C9E443A1-3DD1-4022-B2DC-683D0E0B0D00Q44051589-325FB59D-236C-4E77-95ED-A54132A2B2FDQ44056861-13CA34D3-DDE3-430F-959C-11B30346831EQ44737714-2DF4F9F0-B9E9-480A-87D0-470C7F8A24A7Q44852346-2F96102D-85E4-42B9-BDE6-F96F6D5D1434Q44858823-F3CB0828-A1C2-4124-80B0-6A5DF33282BDQ45083760-B68EF837-0717-4B52-BB9A-E6FB9FEA4E09Q45205612-9853D0B8-CB82-40DF-9D53-D4626CEF35C0Q46381675-9B282841-64E4-449D-8352-0B1DBB6CF5BFQ46424907-EAF92AFD-AC66-4531-A0E6-E2A367FBEB2CQ46435525-3F7A2A29-9BBA-4E10-A2C6-A67104481814Q46736619-75B0DC4F-9E36-4E40-BE37-A945B685E7E2Q46798225-57FB2931-1551-42A0-885B-8A9BE485F0CBQ46899396-FE2E3C18-B443-4A92-BB28-1A4CD08F9785Q46935731-8BB2F0EC-627E-4A1F-AC41-3BC72E14B0E3Q46936523-837B3EC8-B6F7-4089-B3CF-06610107488EQ46938124-B8CF8B94-B8C2-4E60-B1F3-DE87433DFA3BQ48054436-44C82409-8F14-4B23-8E93-287D4F9D37ADQ48161771-1FF9256C-C1B9-4BDA-A935-995B0EDE736EQ48267372-D56A3DD4-8E9A-4944-98CD-D5FCD2498911Q48371478-F72F04A9-2C33-4DBD-9E01-3780ED5CCB65Q55347916-4152EF6A-C916-4001-A561-79F3234B5F99Q57375214-25A448D3-AAC0-477C-9FB5-7CEF6658A1E1Q78462498-4394D6A5-C904-45F3-9E61-65F49BC02287Q79847131-E03A7AF0-A56C-4699-8A7C-66286C114A57Q79994821-2FFF9ABB-ED5F-4A15-9E5E-791F1ADD82C3Q80559120-340BCFCA-8C2F-4452-BDF4-F80F4A1C9324Q81373415-82BA59C0-021E-4D73-B474-6DA16C8FAC1CQ82435568-3D32719A-AC4A-4AFE-B452-3F96278E1AEEQ83047117-CB8995C4-EF6B-48D2-AFE6-EAB3EEF5280DQ83080573-BF26259C-C275-4EB1-B539-1A642739C1ADQ83279973-7F3E5256-BA06-4EF3-BB8E-EA130BED948AQ83899937-7BC2F0E9-7125-4C10-8F1B-D377806DA19A
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Stephen J Loeb
@ast
Stephen J Loeb
@en
Stephen J Loeb
@es
Stephen J Loeb
@nl
Stephen J Loeb
@sl
type
label
Stephen J Loeb
@ast
Stephen J Loeb
@en
Stephen J Loeb
@es
Stephen J Loeb
@nl
Stephen J Loeb
@sl
prefLabel
Stephen J Loeb
@ast
Stephen J Loeb
@en
Stephen J Loeb
@es
Stephen J Loeb
@nl
Stephen J Loeb
@sl
P1053
H-4599-2011
P106
P21
P31
P3829
P496
0000-0002-8454-6443