about
A synthetic molecular pentafoil knotAsararenes--a family of large aromatic macrocycles.Mechanically bonded macromolecules.Discovery of an organic trefoil knot.Knotting and threading of molecules: chemistry and chirality of molecular knots and their assemblies.Allosteric initiation and regulation of catalysis with a molecular knot.Assembled molecular face-rotating polyhedra to transfer chirality from two to three dimensions.Advances towards synthetic machines at the molecular and nanoscale level.Places and chemistry: Strasbourg--a chemical crucible seen through historical personalities.Strategies and tactics for the metal-directed synthesis of rotaxanes, knots, catenanes, and higher order links.Template synthesis of molecular knots.125 years of chemistry in the mirror of "angewandte".Disulfide exchange: exposing supramolecular reactivity through dynamic covalent chemistry.Progress in the synthesis and exploitation of catenanes since the Millennium.Knot theory in modern chemistry.Molecular Knots.From Chemical Topology to Molecular Machines (Nobel Lecture).Chiral tether-mediated stabilization and helix-sense control of complementary metallo-double helices.Metallomacrocycles with a difference: macrocyclic complexes with exocyclic ruthenium(II)-containing domains.Getting tubed: mechanical bond in endohedral derivatives of carbon nanotubes?Synthesis of multi-1,10-phenanthroline ligands with 1,3-phenylene linkers and their lithium complexes.Weaving of organic threads into a crystalline covalent organic framework.Rotationally Active Ligands: Dialing-Up Multiple Interlocked Co-Conformations for Silver(I) Coordination.Tight Embrace in a Molecular Knot with Eight Crossings.Rotationally Active Ligands: Dialing-Up the Co-conformations of a [2]Rotaxane for Metal Ion Binding.Simultaneous self-assembly of a [2]catenane, a trefoil knot, and a Solomon link from a simple pair of ligands.Peptide [4]Catenane by Folding and Assembly.A trefoil knotted polymer produced through ring expansion.A Star of David catenane.Mechanostereochemistry and the mechanical bond.Phase diagrams of knotted and unknotted ring polymers.Polymeric catenanes synthesized via "click" chemistry and atom transfer radical coupling.Active-Metal Template Synthesis of a Molecular Trefoil Knot125 Jahre Chemie im Spiegel der “Angewandten”One-pot pentaknotSynthesis of a D3-symmetric “trefoil” knotted cyclophaneMolekulare KnotenStereochemistry of Molecular Figures-of-EightActive-Metal Template Synthesis of a Molecular Trefoil KnotStudy of Metal-1,10-Phenanthroline Complex Equilibria by Potentiometric Measurements
P2860
Q28255441-DE7AAC8F-5520-4D87-A11C-18CF8A6F5100Q30590195-FC5AD306-1850-4D3D-8144-955191C8440DQ33519928-AB016B35-30EF-41D4-BBF8-AD40FCF9AE56Q34310741-E36A211E-2F6B-4C14-AF3A-8699D128AED8Q34392984-98F343B1-1CDB-4262-905E-F24FB8B8B34AQ34531901-432C658B-CDFC-4E9A-8516-DFA936AC7984Q37208246-49BA632F-0601-4A12-96C2-2C8A2689F35EQ37773798-97FA5671-AF6A-42AC-B8D2-C43FCE8E5C1CQ37859634-61D92546-8397-4F78-9C8F-062A168E74D2Q37934797-0A806B77-728B-4BF4-8BFF-4FC225DC4118Q38034433-2848CD08-FB15-422B-8F97-4BC8BE9CA135Q38082483-6ABFC35C-6856-4944-BF70-53F7B4F25BA2Q38153195-6FB61867-53FF-4886-86F8-A51F3961ED3EQ38199961-0A49B0A4-67AC-4053-A6F4-30F42A67E58AQ39014973-0890DB53-BC93-45DB-BFBC-B7B15336081FQ39287363-A9071A59-36EA-467D-ADB0-F74698717104Q39385866-52435EC8-E2FD-46D9-BBF4-58F8162EC828Q40980210-752DD81C-FFBB-4BC2-9DEA-ACDB63C3DF71Q43275463-888E3477-BFCC-4605-B180-8204DA80AE2EQ44181723-F0E46F9F-5D22-4432-ADB9-886DD5B45589Q46478840-424D9A21-8B37-4A18-ACC4-91B5C368ED95Q46760660-4A5A701A-F541-499F-A373-E1ACF1E76A5EQ48161771-86B172D3-0630-447D-BC96-3DC0D453BA07Q48330235-92837685-00A4-4C87-9097-7D8BB702A916Q48371478-FE3F5AB4-18FC-4361-834F-A91EA3EA3C9BQ50853497-1EBEDD4B-F9A5-4575-A887-2DF3C1406211Q50873270-5980245B-E22C-4CAA-91F5-3E30BBA1AB6AQ51003272-9CEC6DB7-9D11-407D-8BA6-28E9EDB4F863Q51040154-9CCDC910-D7E2-459E-ADEE-55FD079A0B68Q51323444-5B625208-5EE0-40B9-8BD6-660F0AFD6678Q51368175-FCF4BF0E-7749-4919-BC38-DDF22C50304AQ53269975-ED744EA4-30BE-4EFA-A68E-575B109460A3Q55883368-713D0D83-AFC7-4088-8B0C-1C89E661DFE8Q56681310-2E2B0783-88FC-46EA-8513-23E54DCDDF02Q56754999-01AFC8B3-E06B-4C33-87A1-30B77C8F688CQ57086074-4F373DC8-C6B0-46A4-B8C0-7EE645CAD82FQ57384121-6E2FC777-EED3-49F3-907A-ADE563CF3BD5Q57585532-AFF17EE3-95F8-4B24-A43D-E277DBFD7474Q58166205-9925F9B0-51EB-4B9C-B7F7-006EE66B4A9DQ58690984-E4FA6703-F72D-4D69-ADF2-4BFC26AD28B8
P2860
description
wetenschappelijk artikel
@nl
наукова стаття, опублікована в лютому 1989
@uk
name
A Synthetic Molecular Trefoil Knot
@en
A Synthetic Molecular Trefoil Knot
@nl
type
label
A Synthetic Molecular Trefoil Knot
@en
A Synthetic Molecular Trefoil Knot
@nl
prefLabel
A Synthetic Molecular Trefoil Knot
@en
A Synthetic Molecular Trefoil Knot
@nl
P356
P1476
A Synthetic Molecular Trefoil Knot
@en
P2093
Christiane O. Dietrich-Buchecker
Jean-Pierre Sauvage
P304
P356
10.1002/ANIE.198901891
P407
P577
1989-02-01T00:00:00Z