sameAs
Porous Organic Cages for Sulfur Hexafluoride Separation.Unstitching the nanoscopic mystery of zeolite crystal formation.Shedding Light on Structure-Property Relationships for Conjugated Microporous Polymers: The Importance of Rings and Strain.Emergent Properties of an Organic Semiconductor Driven by its Molecular Chirality.Amine Molecular Cages as Supramolecular Fluorescent Explosive Sensors: A Computational Perspective.Porosity in metal-organic framework glasses.Application of computational methods to the design and characterisation of porous molecular materials.Periphery-Functionalized Porous Organic Cages.Shape selectivity by guest-driven restructuring of a porous material.In silico design of supramolecules from their precursors: odd-even effects in cage-forming reactionsHydroxylation of silica nanoclusters (SiO2)M(H2O)N, M = 4, 8, 16, 24: stability and structural trends.Dimensionality transformation through paddlewheel reconfiguration in a flexible and porous Zn-based metal-organic framework.A computational exploration of the crystal energy and charge-carrier mobility landscapes of the chiral [6]helicene molecule.Chirality as a tool for function in porous organic cages.Topological landscapes of porous organic cages.Trapping virtual pores by crystal retro-engineering.Polymer nanofilms with enhanced microporosity by interfacial polymerization.Molecular dynamics simulations of gas selectivity in amorphous porous molecular solids.pywindow: Automated Structural Analysis of Molecular PoresHigh-Throughput Screening Approach for the Optoelectronic Properties of Conjugated PolymersAn evolutionary algorithm for the discovery of porous organic cagesUnderstanding static, dynamic and cooperative porosity in molecular materialsPredicting solvent effects on the structure of porous organic moleculesControlling the Crystallization of Porous Organic Cages: Molecular Analogs of Isoreticular Frameworks Using Shape-Specific Directing SolventsSeparation of rare gases and chiral molecules by selective binding in porous organic cagesHigh-pressure carbon dioxide uptake for porous organic cages: comparison of spectroscopic and manometric measurement techniquesMolecular shape sorting using molecular organic cagesA porous layered metal-organic framework from π–π-stacking of layers based on a Co6 building unitEvidence for atomic mixingvia multiple intermediates during the dynamic interconversion of silicate oligomers in solutionPorous Organic Cage Nanocrystals by Solution MixingPorous organic cage crystals: characterising the porous crystal surfaceA Soft Porous Organic Cage Crystal with Complex Gas Sorption BehaviorConformer interconversion in a switchable porous organic cageLarge Self-Assembled Chiral Organic Cages: Synthesis, Structure, and Shape PersistenceModular and predictable assembly of porous organic molecular crystals.On-Off Porosity Switching in a Molecular Organic SolidAn extensive theoretical survey of low-density allotropy in siliconComputationally-inspired discovery of an unsymmetrical porous organic cageCorrection to Emergent Properties of an Organic Semiconductor Driven by its Molecular ChiralityMapping binary copolymer property space with neural networks.
P50
Q30370137-07033384-7794-49DF-9E3F-C34443BA1360Q33692040-5A03813B-C98C-42CC-BB11-30505DFE66FDQ37247729-1F5F907D-20F8-4928-939D-63A9FAD365AFQ38659326-6313D5CA-4791-449B-A16E-5698D10F18F9Q38871086-70312B70-F43C-44CC-A961-C9D62D2F73A5Q38917282-74118BF4-D7F9-4B75-B995-78979AF6D82CQ39282398-C220A671-7B22-4E61-99AF-2CCDA00999D5Q39317467-D202FA07-F6E1-460C-84B3-8F2E16ADFA74Q41125566-7F8C69C2-16A5-4C6C-A6F5-6211C1194A1DQ41455343-2CB77275-8E34-43AE-AD97-6B0C30164820Q46122257-A08A40FD-EC0C-4B29-AF19-8E6D2BA1B587Q46932988-7A0B595E-A1B2-48F0-86A3-F4383376347CQ47191745-10EF4891-4435-4F84-8647-787798BA4FBBQ48164924-26C886C2-9EA5-40EF-877F-350F797258E1Q48291714-047E6AF9-F785-49F6-A9DA-9811CDE526BDQ51015281-F62089E6-2CBD-4C42-85EF-1A75C6891F72Q51348940-5061ADF3-678B-4A63-86E2-D57338D4F81DQ54701482-7B2DC725-EE77-4C9B-922B-16236189A576Q58796433-F0F00A66-5FF8-4042-A84C-55C3EC2FEB32Q58796441-F0C2A4D0-7870-45F8-B588-65317FD1EDC2Q58796462-C179DBAD-D914-4F92-B05D-EB31895A4DF4Q58796499-E436674B-1DCC-4925-9A7D-FAB5A1AA1E5FQ58796505-BC384887-F91A-486D-BDA5-5615937741B8Q58796517-011DCE8D-204E-45B1-A7A4-7CBB270C26B0Q58796532-732592CD-1E99-494D-A9FB-CA6DD306E4F8Q58796537-6B8C36FB-E42F-4900-AB41-191FBC9106F3Q58796544-45B25D90-96C4-4E33-9934-698DFEA25A73Q58796555-8F4568E8-E8F4-46C6-A752-1430DE193327Q58796568-30FA58F6-A840-4D17-A166-7C3F543BB77BQ58796574-0CB4667C-2F92-4BAC-ADA7-7FDD695309C1Q58796576-F40262AE-A8F8-48CF-85CF-68FBE1C61050Q58796579-BCF0A06F-C634-4DB4-9047-905077D6541BQ58796583-F69E1E61-BD81-4E37-A5EF-1E42A185805AQ58796592-7FB05F1A-AA05-4A85-B502-0C688115D07AQ58796596-A0823AB0-53F5-409D-9484-88B7842D3D93Q58796604-CBAB4ABC-D5E5-4D6B-93FD-380D3ED88D49Q58796607-FB23A398-E184-426E-B591-8D6CEED0D516Q59575888-33A3EB71-5DFB-4274-B238-4DAE4D0EA4B5Q59581515-2C84541C-FEF8-4A86-AF8F-6886553C10E8Q64899647-58258803-DECC-40BD-A456-6088B49240D8
P50
description
hulumtuese
@sq
researcher
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scheikundige
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հետազոտող
@hy
name
Kim E Jelfs
@en
Kim E Jelfs
@nl
Kim E Jelfs
@sl
Kim Jelfs
@es
type
label
Kim E Jelfs
@en
Kim E Jelfs
@nl
Kim E Jelfs
@sl
Kim Jelfs
@es
altLabel
Kim Jelfs
@en
Kim Jelfs
@nl
prefLabel
Kim E Jelfs
@en
Kim E Jelfs
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Kim E Jelfs
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Kim Jelfs
@es
P1053
E-1802-2011
P106
P2002
P21
P31
P3829
P496
0000-0001-7683-7630
P569
1950-01-01T00:00:00Z