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Microfluidic Pneumatic Cages: A Novel Approach for In-chip Crystal Trapping, Manipulation and Controlled Chemical TreatmentLayer-by-layer electropeeling of organic conducting material imaged in real time.Giant reversible nanoscale piezoresistance at room temperature in Sr2IrO4 thin films.Bottom-up on-crystal in-chip formation of a conducting salt and a view of its restructuring: from organic insulator to conducting "switch" through microfluidic manipulation.Tuning the supramolecular chirality of one- and two-dimensional aggregates with the number of stereogenic centers in the component porphyrins.In-Situ Scrutiny of the Relationship between Polymorphic Phases and Properties of Self-Assembled Monolayers of a Biphenyl Based Thiol.Real Space Demonstration of Induced Crystalline 3D Nanostructuration of Organic Layers.Electron accumulative molecules.Negative differential resistance (NDR) in similar molecules with distinct redox behaviour.Bottom-up synthesis of multifunctional nanoporous graphene.Influence of the Relative Molecular Orientation on Interfacial Charge-Transfer Excitons at Donor/Acceptor Nanoscale HeterojunctionsOn-surface synthesis of superlattice arrays of ultra-long graphene nanoribbonsInductively coupled remote plasma-enhanced chemical vapor deposition (rPE-CVD) as a versatile route for the deposition of graphene micro- and nanostructuresHeterogeneous nanotribological response of polymorphic self-assembled monolayers arising from domain and phase dependent frictionTuning the local frictional and electrostatic responses of nanostructured SrTiO3—surfaces by self-assembled molecular monolayersControlling interpenetration in metal–organic frameworks by liquid-phase epitaxy
P50
Q28829451-38FC112C-FB50-4505-9177-2AF234EDC661Q33396493-10B4163C-246B-4AAF-A2FF-52CF8FE3B347Q35554719-B8DE3F5C-ACAC-48AB-B0EC-D51F25B00B49Q40990066-FC23F8BC-E894-44E7-A2B7-F31464598376Q43013222-D2C9980F-1CFD-4C6E-99AC-2E31B0C59C0BQ48056523-998579DB-9942-4BB0-8401-D884CA6D5E68Q48057518-FA307ABF-899B-48B5-987B-D60CBA688F99Q49348401-4AC83AE2-F30F-4C78-B9EE-C6925FE9B2DBQ53082112-1CDC44B8-F9AD-4268-9D86-65CCD6EDAE12Q53823172-B65AB7CF-9B59-438E-B4B2-A2F6B127877FQ57612320-C25D1ED3-EFD8-480F-8C83-DA1CDA1BE205Q58203179-F1DDC6F6-57DA-4988-8A24-F251255B5B4BQ58203184-40178845-7BC3-4A19-B173-1831027878C9Q58203197-AE773997-27FA-48CB-AB74-45634D553F03Q58203201-389C1513-6E8B-4E19-B876-15090C638B42Q58203202-416035DF-C85B-44CE-B7FC-B7C07134991C
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0003-1006-9506
@en
name
Markos Paradinas
@ast
Markos Paradinas
@en
Markos Paradinas
@es
Markos Paradinas
@nl
type
label
Markos Paradinas
@ast
Markos Paradinas
@en
Markos Paradinas
@es
Markos Paradinas
@nl
prefLabel
Markos Paradinas
@ast
Markos Paradinas
@en
Markos Paradinas
@es
Markos Paradinas
@nl
P1053
P-3532-2015
P106
P31
P3829
P3835
markos--paradinas
P496
0000-0003-1006-9506