sameAs
Adhesion of photon-driven molecular motors to surfaces via 1,3-dipolar cycloadditions: effect of interfacial interactions on molecular motionData mining with molecular design rules identifies new class of dyes for dye-sensitised solar cells.Clay-fulleropyrrolidine nanocomposites.Prediction of the equilibrium structures and photomagnetic properties of the Prussian blue analogue RbMn[Fe(CN)6] by density functional theory.Water-soluble gold nanoparticles protected by fluorinated amphiphilic thiolates.Incorporation of pure fullerene into organoclays: towards C60-pillared clay structures.Redox mediation at 11-mercaptoundecanoic acid self-assembled monolayers on gold.A Langmuir-Schaefer approach for the synthesis of highly ordered organoclay thin films.Rotary molecular motors: a large increase in speed through a small change in design.Functionalization of graphene via 1,3-dipolar cycloaddition.Lipase immobilization on smectite nanoclays: characterization and application to the epoxidation of alpha-pinene.Intermolecular repulsion through interfacial attraction: toward engineering of polymorphs.Development of effective nanobiocatalytic systems through the immobilization of hydrolases on functionalized carbon-based nanomaterials.The dynamics of complex formation between amylose brushes on gold and fatty acids by QCM-D.A two-dimensional magnetic hybrid material based on intercalation of a cationic Prussian blue analog in montmorillonite nanoclay.Microscopic characterisation of suspended graphene grown by chemical vapour deposition.Photochromism and electrochemistry of a dithienylcyclopentene electroactive polymer.Macroscopic transport by synthetic molecular machines.Three state redox-active molecular shuttle that switches in solution and on a surface.Experimental and theoretical study of the adsorption of fumaramide [2]rotaxane on Au(111) and Ag(111) surfaces.Free surfaces recast superconductivity in few-monolayer MgB2: Combined first-principles and ARPES demonstration.Metal-Insulator Transition Induced by Spin Reorientation in Fe7Se8 Grain Boundaries.Prussian blue analogues of reduced dimensionality.Self-assembly of ferromagnetic organic-inorganic perovskite-like films.Carbon nanotubes encapsulating superconducting single-crystalline tin nanowires.Rolling up a graphene sheet.Formation of intra-island grain boundaries in pentacene monolayers.Modelling of the adsorption of C60 on the Au(110) surfaceCarbon Nanotubes Decorated with Palladium Nanoparticles: Synthesis, Characterization, and Catalytic ActivityAdsorption of Fumaramide [2]Rotaxane and Its Components on a Solid Substrate: A Coverage-Dependent StudySurface Enhanced Second Harmonic Generation from Macrocycle, Catenane, and Rotaxane Thin Films: Experiments and TheorySurface enhanced SHG from macrocycle, catenane and rotaxane thin films: experiments and theoryStructural, Electrochemical, and Photophysical Properties of a Molecular Shuttle Attached to an Acid-Terminated Self-Assembled MonolayerGrafting of Benzylic Amide Macrocycles onto Acid-Terminated Self-Assembled Monolayers Studied by XPS, RAIRS, and Contact Angle MeasurementsAdsorption of a Benzylic Amide Macrocycle on a Solid Substrate: XPS and HREELS Characterization of Thin Films Grown on Au(111)A high resolution electron energy loss spectroscopy study of the adsorption of benzylic amide macrocycle on Au(111)Physical Consequences of a Mechanically Interlocked Architecture: Benzylic Amide Catenane NH Stretching Vibrations as Sensitive Probes for Weakly Hydrogen-Bonding EnvironmentsExperimental and theoretical studies of the low-lying electronic states of the simplest benzylic amide [2]catenaneHigh-Frequency Vibrations of the Simplest Benzylic Amide [2]CatenaneKinetics of propane dehydrogenation over Pt–Sn/Al2O3
P50
Q28302394-ECC75CE4-22BE-4B31-8DEE-55A58B490CC2Q30835945-AFD5B1D9-85F2-4916-81A6-FDA567625C32Q33241962-85C71580-FFF4-45A5-86AE-3B020EA19938Q33338875-23B08C2A-F4F6-468E-A759-0B1CD34976C3Q33379205-2B297DAD-9249-4F28-B7D4-BE61386B7592Q34669829-D9B68A60-2B76-4A5C-8E97-7E5DDC4EAB32Q39745378-640C1C39-EDD9-4283-A18B-0A474A0F84B6Q42935704-6691E103-EEFD-427E-8BE9-64AFD15C3579Q42995984-26A18E0D-B54C-41C6-A6DE-4991A1ACB2A5Q43053921-2970EF92-039C-4C4A-AF04-C833AD11246AQ43243259-85D9F80D-B472-440C-BD7E-9F25660E46A2Q43261647-D1674DB0-094E-4212-BC57-75EAE396BCEAQ43336954-0DDB52AB-179A-4869-B51B-04AA232C630EQ43718608-552C7AFC-70FE-42D6-A61B-3BE338368CC1Q44044005-6400933E-6242-48B6-87AB-6806784D2F3BQ44772258-CA14DFB9-5E40-4605-9535-2E880B13BE72Q46594534-FB5E256C-50ED-45ED-8A71-02BAE1531407Q46674156-91272749-6560-4FDF-ADAE-0A50A1F3196AQ46770936-A0E59819-D20A-4718-B3D8-387700C102F7Q46882080-B1456F95-8604-4CFC-9D1B-066DB059FB33Q47149154-A2A923D4-6AF2-4ACE-B98E-3C613A9582ECQ48143203-D1E8C08A-63E5-44BB-9150-C4FA93A13E97Q50244449-013F7C5B-F972-43D2-92F1-9A2505E469AFQ51066437-92CF6BA7-3D29-4008-96F8-6C689F1DDDD7Q51181681-8DACA735-0551-4C40-8217-58652C613196Q51805667-D40AB6A3-CF2E-432E-8E55-E427D9CBF69BQ52892168-C9A5A5C5-AC09-48ED-A41F-12ACAB894A6DQ57002442-EAE8E01B-A741-478A-81E2-2AFB9D5601B9Q57375625-04F7148D-1F7F-44DB-B36F-7A47372CF68EQ57384204-4E59E841-C5C6-44E7-AA3F-C48C66F32270Q57384212-28468E02-BE9C-428B-B613-10E43143E666Q57384222-24230012-8D0D-43CC-BAEF-7BECA63029DCQ57384233-DA570DE8-32DD-45D2-BF46-9B8649D4CACAQ57384236-17716A8B-5D76-4300-94BF-85A727783B54Q57384245-8B5D4757-A3F5-4FBD-BACF-081A7F856959Q57384252-A1C23936-13FE-4075-AC93-FA2154C5ED4EQ57384270-35F04F2E-4EDA-467C-A10A-E6CCFBBB57DEQ57384284-DB31F622-6A44-4B6B-871F-16325C70DE61Q57384288-226FB785-A702-40BE-9F59-828EEBBDBB85Q57387881-4441414F-B819-4B5C-9E06-3F36EBCB256A
P50
description
Deutsche und italienische Physikerin
@de
Duitse en Italiaanse natuurkundige
@nl
German and Italian physicist
@en
Physicienne allemande et italienne
@fr
Saksamaa füüsik
@et
fiziciană germană
@ro
fizikane gjermane
@sq
física alemana
@es
física alemanya
@ca
física alemá
@gl
name
Petra Rudolf
@ast
Petra Rudolf
@de
Petra Rudolf
@en
Petra Rudolf
@es
Petra Rudolf
@fr
Petra Rudolf
@gl
Petra Rudolf
@nl
Petra Rudolf
@sl
type
label
Petra Rudolf
@ast
Petra Rudolf
@de
Petra Rudolf
@en
Petra Rudolf
@es
Petra Rudolf
@fr
Petra Rudolf
@gl
Petra Rudolf
@nl
Petra Rudolf
@sl
altLabel
P. Rudolf
@nl
prefLabel
Petra Rudolf
@ast
Petra Rudolf
@de
Petra Rudolf
@en
Petra Rudolf
@es
Petra Rudolf
@fr
Petra Rudolf
@gl
Petra Rudolf
@nl
Petra Rudolf
@sl
P106
P1006
P214
P1006
P1053
E-6434-2014
P166
P19
P2080
P21
P213
0000 0004 3213 2083
P214
P2798
P31
P3829
P496
0000-0002-4418-1769
P569
1957-01-01T00:00:00Z
P734
P735
P7449
PRS1290408