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Induction of motion in a synthetic molecular machine: effect of tuning the driving force.Three state redox-active molecular shuttle that switches in solution and on a surface.Biocompatibility of composites based on chitosan, apatite, and graphene oxide for tissue applications.Reduction dependent wetting properties of graphene oxideRole of substrate on interaction of water molecules with graphene oxide and reduced graphene oxideExfoliated black phosphorus gas sensing properties at room temperatureLocal desorption of thiols by scanning electrochemical microscopy: patterning and tuning the reactivity of self-assembled monolayersElectrochemical Fabrication of Surface Chemical Gradients in Thiol Self-Assembled Monolayers with Tailored Work-FunctionsAnd Yet it Moves! Microfluidics Without Channels and TroughsBenzylic Amide Rotaxanes: A Versatile ArchitectureExamining Granger causality between atmospheric parameters and radonChemInform Abstract: Direct Formylation of 9,9′-Spirobifluorene: 2-Carboxaldehyde-9,9′-spirobifluorene and 2,2′-Dicarboxaldehyde-9,9′-spirobifluoreneAn electrochemically driven molecular shuttle controlled and monitored by C60Electrochemistry and spectroelectrochemistry of polypyridine ligands: A theoretical approachReverse Shuttling in a Fullerene-Stoppered RotaxaneTuning Electron Transfer through Translational Motion in Molecular ShuttlesTuning Electron Transfer through Translational Motion in Molecular ShuttlesPhotophysical and electrochemical properties of a fullerene-stoppered rotaxaneReverse Shuttling in a Fullerene-Stoppered RotaxaneComparative studies of the reduction of 2-naphthaldehyde, 9,9′-spirobi-(9H-fluorene)-2-carboxaldehyde and 2-fluorenecarboxaldehyde in nonaqueous solventsElectrode Surface Modification by a Spirobifluorene Derivative. An XPS and Electrochemical InvestigationDIRECT FORMYLATION OF 9,9′-SPIROBIFLUORENE: 2-CARBOXALDEHYDE-9,9′-SPIROBIFLUORENE AND 2,2′-DICARBOXALDEHYDE-9,9′-SPIROBIFLUORENEIn situ syntheses of hydroxyapatite-grafted graphene oxide compositesYAP/TAZ mechano-transduction as the underlying mechanism of neuronal differentiation induced by reduced graphene oxide
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description
researcher ORCID ID = 0000-0002-8653-9925
@en
wetenschapper
@nl
name
Giulia Fioravanti
@ast
Giulia Fioravanti
@en
Giulia Fioravanti
@es
Giulia Fioravanti
@nl
type
label
Giulia Fioravanti
@ast
Giulia Fioravanti
@en
Giulia Fioravanti
@es
Giulia Fioravanti
@nl
prefLabel
Giulia Fioravanti
@ast
Giulia Fioravanti
@en
Giulia Fioravanti
@es
Giulia Fioravanti
@nl
P106
P1153
8840444000
P21
P31
P496
0000-0002-8653-9925