%D8%AC%D8%A7%D9%86_%D9%85%D8%A7%D8%B1%D9%8A_%D9%84%D9%8A%D9%86Jan-Mari_Len%DA%98%D8%A7%D9%86-%D9%85%D8%A7%D8%B1%DB%8C_%D9%84%D9%86%D0%96%D0%B0%D0%BD-%D0%9C%D0%B0%D1%80%D0%B8_%D0%9B%D0%B5%D0%BDJean-Marie_LehnCategory:Jean-Marie_LehnJean-Marie_LehnJean-Marie_LehnJean-Marie_LehnJean-Marie_LehnJean-Marie_LehnJean-Marie_Lehn%DA%98%D8%A7%D9%86-%D9%85%D8%A7%D8%B1%DB%8C_%D9%84%D9%86Jean-Marie_LehnJean-Marie_LehnJean-Marie_LehnJean-Marie_Lehn%D7%96%27%D7%9F-%D7%9E%D7%90%D7%A8%D7%99_%D7%9C%D7%94%D7%9F%E0%A4%9C%E0%A4%BE%E0%A4%BC%E0%A4%A8-%E0%A4%AE%E0%A4%BE%E0%A4%B0%E0%A5%80_%E0%A4%B2%E0%A5%88%E0%A4%B9%E0%A5%8D%E0%A4%A8Jean-Marie_LehnJean-Marie_LehnJean-Marie_Lehn%E3%82%B8%E3%83%A3%E3%83%B3%EF%BC%9D%E3%83%9E%E3%83%AA%E3%83%BC%E3%83%BB%E3%83%AC%E3%83%BC%E3%83%B3%EC%9E%A5%EB%A7%88%EB%A6%AC_%EB%A0%8CJean-Marie_Lehn%E0%A4%9C%E0%A5%8D%E0%A4%AF%E0%A4%BE%E0%A4%81-%E0%A4%AE%E0%A4%B0%E0%A5%80_%E0%A4%B2%E0%A5%87%E0%A4%B9%E0%A5%8D%E0%A4%A8Jean-Marie_LehnJean-Marie_LehnJean-Marie_LehnJean-Marie_LehnJean-Marie_LehnJean-Marie_Lehn%D8%AC%DB%8C%D9%86_%D9%84%DB%81%D9%86Jean-Marie_LehnJean-Marie_Lehn%D0%9B%D0%B5%D0%BD,_%D0%96%D0%B0%D0%BD-%D0%9C%D0%B0%D1%80%D0%B8Jean-Marie_LehnJean-Marie_LehnJean-Marie_LehnJean-Marie_Lehn
about
Dynamic devices. Shape switching and substrate binding in ion-controlled nanomechanical molecular tweezersSynthetic polyamines: new compounds specific to actin dynamics for mammalian cell and fission yeastSupramolecular Chemistry—Scope and Perspectives Molecules, Supermolecules, and Molecular Devices(Nobel Lecture)Time scales of membrane fusion revealed by direct imaging of vesicle fusion with high temporal resolutionStable tumor vessel normalization with pO₂ increase and endothelial PTEN activation by inositol trispyrophosphate brings novel tumor treatment.Generation of bis-cationic heterocyclic inhibitors of Bacillus subtilis HPr kinase/phosphatase from a ditopic dynamic combinatorial library.Fusogenic supramolecular vesicle systems induced by metal ion binding to amphiphilic ligands.Chemical biology of dynamic combinatorial libraries.Evolution of a constitutional dynamic library driven by self-organisation of a helically folded molecular strand.Self-organization by selection: generation of a metallosupramolecular grid architecture by selection of components in a dynamic library of ligands.Drug discovery by dynamic combinatorial libraries.Reversible Diels-Alder reactions for the generation of dynamic combinatorial libraries.Dynamic combinatorial carbohydrate libraries: probing the binding site of the concanavalin A lectin.Constitutional dynamic self-sensing in a zinc(II)/polyiminofluorenes system.Gelation-driven component selection in the generation of constitutional dynamic hydrogels based on guanine-quartet formation.Dynamic chemical devices: photoinduced electron transfer and its ion-triggered switching in nanomechanical butterfly-type bis(porphyrin)terpyridines.Protonic and temperature modulation of constituent expression by component selection in a dynamic combinatorial library of imines.Quartz crystal microbalance bioaffinity sensor for rapid identification of glycosyldisulfide lectin inhibitors from a dynamic combinatorial library.Driven evolution of a constitutional dynamic library of molecular helices toward the selective generation of [2 x 2] gridlike arrays under the pressure of metal ion coordination.Glycodynamers: dynamic analogs of arabinofuranoside oligosaccharides.DOSY NMR experiments as a tool for the analysis of constitutional and motional dynamic processes: implementation for the driven evolution of dynamic combinatorial libraries of helical strands.Electric-field triggered controlled release of bioactive volatiles from imine-based liquid crystalline phases.Adaptation and optical signal generation in a constitutional dynamic network.Structural and functional evolution of a library of constitutional dynamic polymers driven by alkali metal ion recognition.Thermoresponsive dynamers: thermally induced, reversible chain elongation of amphiphilic poly(acylhydrazones).Toward complex matter: supramolecular chemistry and self-organization.Dynamic chemical devices: modulation of contraction/extension molecular motion by coupled-ion binding/pH change-induced structural switching.Toward self-organization and complex matter.Adaptation of dynamic covalent systems of imine constituents to medium change by component redistribution under reversible phase separation.Progress in gene delivery by cationic lipids: guanidinium-cholesterol-based systems as an example.Suppression of hypoxia-induced HIF-1alpha and of angiogenesis in endothelial cells by myo-inositol trispyrophosphate-treated erythrocytes.Adaptation in constitutional dynamic libraries and networks, switching between orthogonal metalloselection and photoselection processes.Dynamic covalent chemistry of bisimines at the solid/liquid interface monitored by scanning tunnelling microscopy.Dynamic Covalent Chemistry of Nucleophilic Substitution Component Exchange of Quaternary Ammonium Salts.Self-assembled lamellar complexes of siRNA with lipidic aminoglycoside derivatives promote efficient siRNA delivery and interferenceTraining a Constitutional Dynamic Network for Effector Recognition: Storage, Recall, and Erasing of Information.Development of OXY111A, a novel hypoxia-modifier as a potential antitumor agent in patients with hepato-pancreato-biliary neoplasms - Protocol of a first Ib/IIa clinical trialHigher Order Constitutional Dynamic Networks: [2×3] and [3×3] Networks Displaying Multiple, Synergistic and Competitive Hierarchical Adaptation.Coevolution and ratiometric behaviour in metal cation-driven dynamic covalent systemsKinetic Selectivity and Thermodynamic Features of Competitive Imine Formation in Dynamic Covalent Chemistry.
P50
Q28263172-13BD8E80-0570-4981-A992-36DD5EA3563DQ28829674-A9FFF88D-2C39-4EAD-A2EB-817941423C38Q29398139-DAF9685A-36A5-4D33-B277-0657E6DD1189Q30478132-A8C12BF8-7E9C-48DE-B405-2E3EA2184A7FQ30540976-F15019A0-0486-48B1-B7E6-F2CEF1E49303Q30826785-E4672F48-CEA4-41C1-8A62-130DAC01D635Q30835509-5B8740B3-CE58-4E79-945F-958295DD0791Q30847185-48610EFD-5720-47DF-BF98-B33B5AC28AAEQ30847185-73299EAF-59A5-4A92-8B95-DDCEC9B0E647Q30979990-DB9520FD-9D4B-429C-977A-97416A5ED771Q31004501-ED6E9A8A-19F3-4FEE-8DFE-C4CEB46178ACQ31096767-63CEC63A-E1E1-48C3-A030-61558C9CBACAQ31138096-CD1E4A75-3867-4D28-9D5F-8CF2893985E0Q33200624-9A19A94F-DE26-41E8-A539-0DFD053FCCECQ33206801-13BC9556-9F07-4997-B54C-C66616A68808Q33214231-42B75566-3FB3-47D7-842D-BC79B58782CAQ33228049-E11EE32D-3E9D-40ED-87C6-2E678C7D0699Q33231220-471868DE-9EA4-4784-A949-860E53E60B11Q33231402-FDA79F64-02BD-4E31-9799-4AF322703807Q33266987-EABCDE6E-998A-41A5-B3C6-5932E09DFDD1Q33305968-177CF2D8-6F5B-48A8-AAF5-0E2E75A66BF4Q33319864-C9AA25AB-4710-461D-BCAE-59F89B27566FQ33392049-4067B55D-8E55-4890-8367-49C21D8B4A26Q33435457-A1F728D0-0A37-4697-9149-0315E86DFF6AQ33486646-7DE37D87-8DC5-4B08-8D43-950ABBBBD38CQ33921789-08B30C12-7E1A-4FDB-94C4-4E195DB339CFQ34022000-9380ACBB-87A3-40E6-9399-CCCFA15B26EBQ34023980-6C275A43-3A2E-4883-B474-7D25D592E80EQ34121244-BB174893-2E49-40E5-A841-73B7EE7D6FBBQ34333213-57925345-8B06-4C1B-BDC2-AC77966C1E31Q34567444-73CD8217-584F-4E58-AF0C-238EDF690299Q35108335-3BDA4517-FFE9-4323-A7D8-25CF6B5518BFQ35182127-8482B155-09C8-4232-AA54-8377A0626947Q35365134-D316276B-88D3-47C8-A395-4FB7B9F813CFQ35715069-86C87E71-325E-43AC-B320-D3D0363FAE58Q36082145-92D45988-1234-4108-9856-412C21DFC6E6Q36116073-EC8FE2DD-A49F-46E1-982E-D0875E534D3BQ36166723-2CCB2BD0-1AF5-4631-9641-D3C29D2A616AQ36266102-DE38E9E7-35C2-47FB-BFE0-3A00F1D817C5Q36372680-C401BBE7-E11E-42D4-AAC4-EFEF2C83B7AB
P50
description
Frans scheikundige
@nl
French chemist
@en
French chemist
@en-ca
French chemist
@en-gb
Prantsusmaa keemik
@et
ceimiceoir Francach
@ga
chemik francuski, noblista
@pl
chimico francese
@it
chimist francez
@ro
chimiste français
@fr
name
Jan-Mari Len
@az
Jean-Marie Lehn
@ast
Jean-Marie Lehn
@ca
Jean-Marie Lehn
@cs
Jean-Marie Lehn
@da
Jean-Marie Lehn
@de
Jean-Marie Lehn
@en
Jean-Marie Lehn
@es
Jean-Marie Lehn
@eu
Jean-Marie Lehn
@fi
type
label
Jan-Mari Len
@az
Jean-Marie Lehn
@ast
Jean-Marie Lehn
@ca
Jean-Marie Lehn
@cs
Jean-Marie Lehn
@da
Jean-Marie Lehn
@de
Jean-Marie Lehn
@en
Jean-Marie Lehn
@es
Jean-Marie Lehn
@eu
Jean-Marie Lehn
@fi
altLabel
Jean Marie Lehn
@es
Jean Marie Lehn
@ro
Jean-Marie Pierre Lehn
@ro
Lehn
@sv
Жан Лен
@ru
Жан Мари Лен
@ru
Жан Марі Льон
@uk
Жан-Мари Лен
@ru
Лен Жан Мари
@ru
Лен Жан-Мари
@ru
prefLabel
Jan-Mari Len
@az
Jean-Marie Lehn
@ast
Jean-Marie Lehn
@ca
Jean-Marie Lehn
@cs
Jean-Marie Lehn
@da
Jean-Marie Lehn
@de
Jean-Marie Lehn
@en
Jean-Marie Lehn
@es
Jean-Marie Lehn
@eu
Jean-Marie Lehn
@fi