about
Towards metal–organic framework based field effect chemical sensors: UiO-66-NH2for nerve agent detectionGel-based morphological design of zirconium metal-organic frameworks.Silver-induced reconstruction of an adeninate-based metal-organic framework for encapsulation of luminescent adenine-stabilized silver clustersChemical vapour deposition of zeolitic imidazolate framework thin films.An updated roadmap for the integration of metal-organic frameworks with electronic devices and chemical sensors.Vapor-Phase Deposition and Modification of Metal-Organic Frameworks: State-of-the-Art and Future Directions.Interfacial synthesis of hollow metal-organic framework capsules demonstrating selective permeability.Digital microfluidic high-throughput printing of single metal-organic framework crystals.Tetraarylborate polymer networks as single-ion conducting solid electrolytes.Three-dimensional visualization of defects formed during the synthesis of metal-organic frameworks: a fluorescence microscopy study.Direct patterning of oriented metal-organic framework crystals via control over crystallization kinetics in clear precursor solutions.Separation of C(5)-hydrocarbons on microporous materials: complementary performance of MOFs and zeolites.Iron(III)-based metal-organic frameworks as visible light photocatalysts.Morphology of large ZSM-5 crystals unraveled by fluorescence microscopy.Ionic conductivity in the metal-organic framework UiO-66 by dehydration and insertion of lithium tert-butoxide.Relating pore structure to activity at the subcrystal level for ZSM-5: an electron backscattering diffraction and fluorescence microscopy study.Adsorption and Reactive Desorption on Metal-Organic Frameworks: A Direct Strategy for Lactic Acid Recovery.Lithographic deposition of patterned metal-organic framework coatings using a photobase generator.3D printing in chemical engineering and catalytic technology: structured catalysts, mixers and reactors.Parts per Million Detection of Alcohol Vapors via Metal Organic Framework Functionalized Surface Plasmon Resonance Sensors.A Flexible Photoactive Titanium Metal-Organic Framework Based on a [Ti(IV)3(μ3-O)(O)2(COO)6] Cluster.Photopatterning of fluorescent host-guest carriers through pore activation of metal-organic framework single crystals.Counteranion effects on the catalytic activity of copper salts immobilized on the 2,2′-bipyridine-functionalized metal–organic framework MOF-253Tuning the catalytic performance of metal–organic frameworks in fine chemistry by active site engineeringA zirconium squarate metal–organic framework with modulator-dependent molecular sieving propertiesLewis acid double metal cyanide catalysts for hydroamination of phenylacetyleneBulk-to-Surface Proton-Coupled Electron Transfer Reactivity of the Metal-Organic Framework MIL-125Application of metal and metal oxide nanoparticles@MOFsMetal-Organic Framework Single Crystals as Photoactive Matrices for the Generation of Metallic MicrostructuresTowards direct monitoring of discrete events in a catalytic cycle at the single molecule levelSodium-coupled electron transfer reactivity of metal-organic frameworks containing titanium clusters: the importance of cations in redox chemistry.An amino-modified Zr-terephthalate metal-organic framework as an acid-base catalyst for cross-aldol condensationIn situ synthesis of Cu-BTC (HKUST-1) in macro-/mesoporous silica monoliths for continuous flow catalysisElectronic effects of linker substitution on Lewis acid catalysis with metal-organic frameworksPatterned film growth of metal-organic frameworks based on galvanic displacementSuper-resolution reactivity mapping of nanostructured catalyst particlesReversible Optical Writing and Data Storage in an Anthracene-Loaded Metal-Organic FrameworkVapor-Phase Linker Exchange of the Metal-Organic Framework ZIF-8: A Solvent-Free Approach to Post-synthetic ModificationVapour-phase deposition of oriented copper dicarboxylate metal-organic framework thin filmsPore network model for permeability characterization of three-dimensionally-printed porous materials for passive microfluidics
P50
Q29028588-716CD9E8-AB41-46DB-9794-B8BF264460E8Q30355700-029E2F7A-642F-4F47-825F-7092C8EAB195Q37714939-ADB47440-401E-4A88-937D-D0A269866BFDQ38384458-CA8B953E-E1FE-4EB2-943C-EDAEB3359DFDQ38689870-CD4E856E-7367-4240-B7D1-E14974EBF551Q38835316-6F2BBD7C-C483-4874-B83B-6A2E922CBD15Q39759085-B6075A3E-828A-4ACE-9311-808E188A36ADQ40019011-213A229D-836B-4370-AFAC-9692E9DB7FDDQ40980792-9A743853-5EF4-436B-8A5F-3D44356F7DF0Q42520339-69EE5FCC-AE85-47A4-B207-631CC7A358C0Q42942937-9E125CE4-9F93-4128-AD70-C4A7AC26FFABQ43178668-23A4AA56-5390-4B9F-B4BB-7A8AA209054AQ44785479-C548EEF7-AEBE-4075-B818-702729D83B7FQ45794569-710B052E-1F50-4A2E-B2B0-F34406ABE288Q46016031-A3897586-9C2A-4A8C-B4CF-7A8EB15CD385Q46360297-9F6F86F5-32E8-455D-BDD8-DB9848B3C7D7Q46453500-8E29D32B-0014-49F7-9216-8E8385DAE80CQ46539921-B7C55D3B-3334-4844-9CC4-DB3E7C5AB43BQ47355481-A2ED9B04-918C-4802-8497-D3E33D0E8DB8Q48104001-5FC81135-17EC-446A-B60B-4B1C42ED7E83Q49111078-A0FB5F02-0CB5-49AD-8FE8-2C1E1A4F4524Q52773648-D4E13AC3-1D73-4392-9832-FA15608351EBQ56921692-F88E9BC9-753C-4AC5-8346-CF619D9D1887Q57387944-866DA10A-3984-460D-9585-E01D0E36CBC6Q58281752-D74F6C5E-F75B-4CD0-87E1-09A250D54B3DQ58282247-CE6D87EE-8F0F-400C-9A21-162F537116DFQ58614234-3D26B3CD-C595-4142-B378-411BEB08B2F4Q60179118-ECAC8195-CDD9-4A15-B4F3-CCEADF949D69Q61875967-0F4E4F5F-A020-4F36-8637-32D4410F6221Q61876017-21AF2D49-3F2A-402B-AB36-B68AA15CCE9EQ64884743-146B2F3E-B92A-43B6-B5B5-67A7B1ABDC75Q82583683-00BCA33F-ED80-4A14-9CD5-CE6B538FA95DQ83801968-7C64CD47-3929-4488-B1DD-64C35626F24DQ83843328-B7370710-17BD-40A8-8FC2-B0850ACB158AQ84135222-F304E147-9B33-4C42-A40A-62AD8CCB5391Q84850759-99E9A77B-4109-419D-ACE4-9707A0BF47EFQ90475470-CC081C70-6764-4990-A882-9D4B5F124096Q90588697-5BE1F4C3-FFB1-408D-91CC-5D08F975C7BDQ92336778-275DD037-0002-4E69-9562-19786AE35634Q93181059-B10C403D-3764-4B88-9068-F723F845C567
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Rob Ameloot
@ast
Rob Ameloot
@en
Rob Ameloot
@es
Rob Ameloot
@nl
Rob Ameloot
@sl
type
label
Rob Ameloot
@ast
Rob Ameloot
@en
Rob Ameloot
@es
Rob Ameloot
@nl
Rob Ameloot
@sl
prefLabel
Rob Ameloot
@ast
Rob Ameloot
@en
Rob Ameloot
@es
Rob Ameloot
@nl
Rob Ameloot
@sl
P1053
C-9175-2013
P106
P21
P31
P3829
P496
0000-0003-3178-5480