about
The σ-aromatic clusters [Zn₃]⁺ and [Zn₂Cu]: embryonic brass.Nonlinear optical properties, upconversion and lasing in metal-organic frameworks.Ruthenium Metal-Organic Frameworks with Different Defect Types: Influence on Porosity, Sorption, and Catalytic Properties.Structural complexity in metal-organic frameworks: simultaneous modification of open metal sites and hierarchical porosity by systematic doping with defective linkers.A cryogenically flexible covalent organic framework for efficient hydrogen isotope separation by quantum sieving.Metal-organic frameworks constructed from crown ether-based 1,4-benzenedicarboxylic acid derivatives.Encapsulation of Bimetallic Metal Nanoparticles into Robust Zirconium-Based Metal-Organic Frameworks: Evaluation of the Catalytic Potential for Size-Selective Hydrogenation.Atom-Precise Organometallic Zinc Clusters.Multi-Photon Absorption in Metal-Organic Frameworks.Diverse Reactivity of ECp* (E = Al, Ga) toward Low-Coordinate Transition Metal Amides [TM(N(SiMe3)2)2] (TM = Fe, Co, Zn): Insertion, Cp* Transfer, and Orthometalation.Defective Metal-Organic Frameworks.Feeling the Pulse of Chemistry-Already in Practical Laboratory Courses.Mixed-linker solid solutions of functionalized pillared-layer MOFs - adjusting structural flexibility, gas sorption, and thermal responsiveness.Ultrathin Hierarchical Porous Carbon Nanosheets for High-Performance Supercapacitors and Redox Electrolyte Energy Storage.Synthesis of rare-earth metal and rare-earth metal-fluoride nanoparticles in ionic liquids and propylene carbonate.Intermetalloid Clusters: Molecules and Solids in a DialogueSurface morphology and electrical properties of CuBTC thin films before and after reaction with TCNQBiomimetic Superhydrophobic/Superoleophilic Highly Fluorinated Graphene Oxide and ZIF-8 Composites for Oil-Water SeparationHigh electrical conductivity and high porosity in a Guest@MOF material: evidence of TCNQ ordering within Cu3BTC2 micropores.Control of structural flexibility of layered-pillared metal-organic frameworks anchored at surfacesDiscovery of Polyoxo-Noble-Metalate-Based Metal–Organic FrameworksSuppressed Phosphine Dissociation by Polarization Effects on the Donor–Acceptor Bonds in [Ni(PEt3)4–n(ECp*)n] (E = Al, Ga)Embryonic brass: pseudo two electron Cu/Zn clustersOxygen Evolution Electrocatalysis of a Single MOF-Derived Composite Nanoparticle on the Tip of a NanoelectrodeSynthesis of nickel/gallium nanoalloys using a dual-source approach in 1-alkyl-3-methylimidazole ionic liquidsFormation of a Propeller-Shaped Ni4Ga3 Cluster Supported by Transmetalation of Cp* from Ga to NiTuning the Mechanical Response of Metal-Organic Frameworks by Defect EngineeringOptimizing the Size of Platinum Nanoparticles for Enhanced Mass Activity in the Electrochemical Oxygen Reduction ReactionScrutinizing the Pore Chemistry and the Importance of Cu(I) Defects in TCNQ-Loaded Cu3(BTC)2 by a Multitechnique Spectroscopic ApproachAll-zinc coordinated nickel-complexes as molecular mimics for NiZn catalyst surfaces, a density functional theory studyControlling Multiphoton Absorption Efficiency by Chromophore Packing in Metal-Organic FrameworksDefect Creation in Surface-Mounted Metal-Organic Framework Thin FilmsCombined Experimental and Theoretical Study on Hampered Phosphine Dissociation in Heteroleptic Ni/Zn ComplexesIncreasing Alkyl Chain Length in a Series of Layered Metal-Organic Frameworks Aids Ultrasonic Exfoliation to Form NanosheetsHydrophobic Metal-Organic FrameworksUnprecedented High Oxygen Evolution Activity of Electrocatalysts Derived from Surface-Mounted Metal-Organic FrameworksAdvanced Bifunctional Oxygen Reduction and Evolution Electrocatalyst Derived from Surface-Mounted Metal-Organic FrameworksGeneration and Stabilization of Small Platinum Clusters Pt12±x Inside a Metal-Organic FrameworkTuning the Negative Thermal Expansion Behavior of the Metal-Organic Framework Cu3BTC2 by RetrofittingRecent Approaches to Design Electrocatalysts Based on Metal-Organic Frameworks and Their Derivatives
P50
Q30891621-4671EE76-A8B6-4E86-B8CE-462A864EF966Q38722708-281FCA49-95F9-4BA8-8DB9-C9548BD8D45AQ39485903-2D0E65C0-39E4-4463-8769-B1C2E3DD7FCCQ42665174-2EBEACC3-2F0A-4EFE-B7CC-5DB71A0FCF03Q44947056-67F5D913-B6FB-45E8-A629-7E87568FF5F3Q46102909-355916C7-42A0-4C97-A12E-E6D275AF9E42Q46449883-57FD5EF0-7AC6-4EC2-9871-5E4C9EC4F733Q46600164-DFAC823E-48B7-4971-B2B9-D0E1E7EDFDEFQ47684667-1F138A3E-BBD4-44AF-A17C-5F75838B0C52Q48167257-4EB9ADAC-01CA-4085-8E27-824DCCBBC5AAQ48176801-018B4591-6DED-424C-9F0E-B23E72225BC1Q48307926-5B76D24F-6859-4658-8A49-20B838064799Q51577864-1D582F74-F450-4B99-81E4-7BA52D629D86Q51735409-6D64324A-53A7-4777-A4C6-EC49C18A7B72Q55665014-FB0867B7-E9A1-46AF-87A9-4ACEFA36B851Q57784121-741180A3-9144-4DB7-BEBE-9C9BA342DC48Q57789230-55429F40-05A3-462F-A96A-D8633DBB17F9Q57954765-9E8D1EAB-8759-48C2-A3AA-E83ADD874619Q58482121-1C7FF873-8569-43B6-B634-D639DC86FCCBQ61124958-D58077A5-CDF5-4680-A758-00597DDF4CDAQ61868004-23DBAB87-C728-4270-B0CA-592400906FD5Q61868009-2D21E918-956C-4FC5-8CCE-06FEB589209BQ61868013-093A8AEA-7D8C-4D27-A156-78CDD9DBE67BQ69030989-7B160C7E-66ED-4FF4-B3D7-F9F58F4EFEE2Q90004993-C872687A-C322-4662-A5C2-FD10ED84257CQ90456715-4CC951EA-8B81-4349-85A9-15409EABD871Q91248129-A85C3A31-512C-4A7A-93F6-7C84B2055C2BQ91730539-35B050A9-59C4-4BB0-97C3-ED8272471C0FQ91753639-902CED1C-C8BF-4506-A26F-C157C324D165Q91820602-A925BE73-809C-4B24-9111-3A581A78A39BQ91825629-1E62E8C9-859E-40D8-A2E2-5DC8D1315EB1Q92002575-CDDE5D7F-495E-4552-85A5-A327ECD4A885Q92233928-BF5E810C-4B43-418A-8B7D-5F79674A3AE1Q92448311-8EABA8D7-8835-4273-9008-9874B0AD4653Q92473939-99BB62EB-0EDF-4282-A355-04C883EBD320Q92476900-E004D2EF-460C-4373-AF79-ED00E7F7DF1FQ92489321-D31DB4B8-0CDD-4C89-A084-4093B0291862Q92529321-F4138FED-A04E-40DF-BDC7-5BE2D0DC55F7Q92654066-AFF9B1AE-E9AF-454C-9324-52A24BF0611FQ92727729-DD01F03B-35D4-43D3-99A7-9C2FC3078FE5
P50
description
investigador
@es
researcher
@en
name
Roland A Fischer
@en
type
label
Roland A Fischer
@en
prefLabel
Roland A Fischer
@en
P31
P496
0000-0002-7532-5286