Supramolecular catalysis. Part 2: artificial enzyme mimics.
about
Hydrolytic Metallo-Nanozymes: From Micelles and Vesicles to Gold NanoparticlesMolecular recognition in protein modification with rhodium metallopeptidesTurning Cucurbit[8]uril into a Supramolecular Nanoreactor for Asymmetric Catalysis.A concerted two-prong approach to the in situ allosteric regulation of bifunctional catalysis.Gated molecular baskets.Design of catalytically amplified sensors for small moleculesMolecular containers in complex chemical systems.The guanidinium unit in the catalysis of phosphoryl transfer reactions: from molecular spacers to nanostructured supports.Progress of Mimetic Enzymes and Their Applications in Chemical Sensors.Enzyme Mimics: Advances and Applications.Polyaromatic N-heterocyclic carbene ligands and π-stacking. Catalytic consequences.Dynamic Responsive Systems for Catalytic Function.Molecular mechanical properties of short-sequence peptide enzyme mimics.M2L4 coordination capsules with tunable anticancer activity upon guest encapsulation.Hyper-crosslinked β-cyclodextrin porous polymer: an adsorption-facilitated molecular catalyst support for transformation of water-soluble aromatic molecules.A Switchable Gold Catalyst by Encapsulation in a Self-Assembled Cage.Selective Co-Encapsulation Inside an M6 L4 Cage.Harnessing non-covalent interactions to exert control over regioselectivity and site-selectivity in catalytic reactions.To catalyze or not to catalyze: elucidation of the subtle differences between the hexameric capsules of pyrogallolarene and resorcinarene."Helix-in-Helix" Superstructure Formation through Encapsulation of Fullerene-Bound Helical Peptides within a Helical Poly(methyl methacrylate) Cavity.Radical polymerization by a supramolecular catalyst: cyclodextrin with a RAFT reagent.Chirality- and sequence-selective successive self-sorting via specific homo- and complementary-duplex formations.Tailored oxido-vanadium(V) cage complexes for selective sulfoxidation in confined spaces.Novel magnesium-seamed organic nanocapsules with hierarchical structural complexity.Efficient active-template synthesis of calix[6]arene-based oriented pseudorotaxanes and rotaxanes.Iminium Catalysis inside a Self-Assembled Supramolecular Capsule: Modulation of Enantiomeric Excess.Guanidine-based polymer brushes grafted onto silica nanoparticles as efficient artificial phosphodiesterases.Air-oxidation from sulfur to sulfone-bridged Schiff-base macrocyclic complexes showing enhanced antimicrobial activities.Transition-Metal-Controlled Inorganic Ligand-Supported Non-Precious Metal Catalysts for the Aerobic Oxidation of Amines to Imines.Triggering autocatalytic reaction by host-guest interactions.Control of Redox Events by Dye Encapsulation Applied to Light-Driven Splitting of Hydrogen Sulfide.Large-Scale Synthesis of Enantiopure Molecular Cages: Chiroptical and Recognition Properties.Confinement induced thermodynamic and kinetic facilitation of some Diels-Alder reactions inside a CB[7] cavitand.Cyclodextrin Cavity-Induced Mechanistic Switch in Copper-Catalyzed Hydroboration.De novo endo-functionalized organic cages as cooperative multi-hydrogen-bond-donating catalysts.A Metalloregulated Four-State Nanoswitch Controls Two-Step Sequential Catalysis in an Eleven-Component System.Controlling ligand binding for tunable and switchable catalysis: cation-modulated hemilability in pincer-crown ether ligands.Cucurbit[7]uril as a Supramolecular Artificial Enzyme for Diels-Alder Reactions.Ambient chemical fixation of CO2 using a highly efficient heterometallic helicate catalyst system.Spectroscopic investigation of bio-mimetic solvolysis of 6-(N,N-dimethylamino)-2,3-naphthalic anhydride in confined nanocavities.
P2860
Q26741438-5D2C2593-C6A6-4618-BA4F-5FF6EC995AB4Q35235856-A4C802F5-A5D3-41AF-A68F-5FAA29B3C8EDQ36275272-D3F45E41-3D2D-4530-BA3A-AB93766A1359Q37707847-40A7DCD0-61C5-49FA-8F41-65D10A0DFB33Q38220056-43DEC6A4-BCC0-49EB-A78E-6EBB230D2B04Q38223692-65E0A687-E15E-435E-8201-65B0048F3CC0Q38230115-7F6485B1-F3FC-4088-B860-A4738A46F331Q38458837-3B830B9F-77C5-40FB-9F2A-2275351E8956Q38747397-6CFFDD39-6FB3-46E0-9D23-BDACD824E380Q38803298-1EEA0344-315E-4AD5-ABAE-01BF23960896Q38883312-7C7E6EFD-D744-46E2-8BD4-6664F8E7573BQ38975202-0A0B97B8-8CBE-4EAB-B4B3-FDCDCF5C2A4AQ39013172-94AE4873-B64C-40BE-B080-F4FEB40577A9Q39528351-AA67049F-9A07-42E7-B1CE-DBF70939AE84Q41146192-FBA2B740-89AA-4E42-BF08-67984ACD7A16Q41350238-EC48BDCA-A7B4-4AE5-AAB6-7B601677CBF3Q41675480-2D7512AE-0D1C-42AA-9ACC-041516A96F1DQ41787281-9990D8B9-52C5-4A76-87E8-E8EE6B0D5E94Q41911027-2661C9F9-1E94-46B5-A0DD-9EF6CF8E5CCDQ42080402-9797A9EB-8ECD-43D1-A7D4-684D6C6E4137Q42154124-2A8AA9C5-CAC7-42B5-9DA2-629E54533269Q42203566-9E9A654A-BB61-45B6-B567-6B597EAC26A8Q42322742-7B8395B3-1DF4-4F8C-A175-0C595BBD77E8Q46273602-83D04EA9-28AD-4830-8871-0363363A872BQ46327361-12C282CB-F7CF-4C79-85CE-6FFE6BBFE889Q46538005-A2E8D7A8-9C56-45E0-882D-2D1E48BF65EAQ46764983-78BF37AF-53E6-44FF-BF69-24C8178EB854Q47142637-74719C27-1330-41B0-AEB7-E6D080B62CD5Q47763781-75FD6375-4571-4642-A410-7C8F03A2BDFCQ47829855-CC206034-CA41-4657-8D72-6EFE333E6D29Q47908722-3DE3E8E7-A739-48A6-B689-536D3F8CEF9BQ48044606-9C2C10F2-69C2-4891-9FCE-4AD3A07E82FCQ48050085-D71D2B77-C68A-4313-A687-0EFDCE0C81ADQ48115462-7861F55B-C2EE-4458-B614-ED4E9B30402BQ48128259-CCA870B2-62ED-4E41-AD91-AC9156D7B406Q48151825-0613E287-A133-46B1-81E3-F0B65CCB30F7Q48158061-B0A62A98-4B57-49A7-BBF1-AA6E1ECA649CQ48162170-3A43709D-5457-4A65-A9D5-13BD74053B9DQ48237671-A2246E11-4134-400E-81E1-27AD4190F33CQ48315531-E716F78B-1B5C-49ED-9CF6-D36E298F49D0
P2860
Supramolecular catalysis. Part 2: artificial enzyme mimics.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Supramolecular catalysis. Part 2: artificial enzyme mimics.
@en
type
label
Supramolecular catalysis. Part 2: artificial enzyme mimics.
@en
prefLabel
Supramolecular catalysis. Part 2: artificial enzyme mimics.
@en
P2860
P50
P356
P1476
Supramolecular catalysis. Part 2: artificial enzyme mimics
@en
P2093
Piet W N M van Leeuwen
P2860
P304
P356
10.1039/C3CS60037H
P577
2013-12-23T00:00:00Z