Graphene-Induced Substrate Decoupling and Ideal Doping of a Self-Assembled Iron-phthalocyanine Single Layer

Graphene-Induced Substrate Decoupling and Ideal Doping of a Self-Assembled Iron-phthalocyanine Single Layer

Iron-phthalocyanine molecules self-assemble on the moiré pattern of graphene/Ir(111) as a flat and weakly interacting layer, as determined by core-level photoemission and absorption spectroscopy. The graphene buffer layer decouples the FePc two-dimensional structure from the underlying metal; the e...

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Published in:Journal of physical chemistry. C Vol. 117; no. 6; pp. 3019 - 3027
Main Authors: Scardamaglia, Mattia, Lisi, Simone, Lizzit, Silvano, Baraldi, Alessandro, Larciprete, Rosanna, Mariani, Carlo, Betti, Maria Grazia
Format: Journal Article
Language:English
Published: Columbus, OH American Chemical Society 14-02-2013
Subjects:
Cross-disciplinary physics: materials science; rheology
Exact sciences and technology
Materials science
Methods of nanofabrication
Physics
Self-assembly
Moire fringes
Self-assembled layers
Coverage rate
Core levels
Thin films
Self-assembly
Electronic structure
Iron complexes
Graphene
Metallophthalocyanine
Free-standing film
Absorption spectra
X-ray photoelectron spectra
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Abstract Iron-phthalocyanine molecules self-assemble on the moiré pattern of graphene/Ir(111) as a flat and weakly interacting layer, as determined by core-level photoemission and absorption spectroscopy. The graphene buffer layer decouples the FePc two-dimensional structure from the underlying metal; the electronic structure of the FePc molecular macrocycles is preserved; and the Fe-L2,3 edges present narrower and slightly modified resonances at the FePc single-layer coverage with respect to a thin film. The FePc layer induces a slight electron doping to the Ir-supported graphene resulting in the Dirac cone position expected for an ideal free-standing-like graphene layer with the standard Fermi velocity.
AbstractList Iron-phthalocyanine molecules self-assemble on the moiré pattern of graphene/Ir(111) as a flat and weakly interacting layer, as determined by core-level photoemission and absorption spectroscopy. The graphene buffer layer decouples the FePc two-dimensional structure from the underlying metal; the electronic structure of the FePc molecular macrocycles is preserved; and the Fe-L2,3 edges present narrower and slightly modified resonances at the FePc single-layer coverage with respect to a thin film. The FePc layer induces a slight electron doping to the Ir-supported graphene resulting in the Dirac cone position expected for an ideal free-standing-like graphene layer with the standard Fermi velocity.
Author Mariani, Carlo
Scardamaglia, Mattia
Lisi, Simone
Lizzit, Silvano
Baraldi, Alessandro
Larciprete, Rosanna
Betti, Maria Grazia
AuthorAffiliation Università di Roma La Sapienza
University of Trieste
Sincrotrone Trieste
IOM-CNR Laboratorio TASC
CNR-ISC
AuthorAffiliation_xml – name: University of Trieste
– name: IOM-CNR Laboratorio TASC
– name: Sincrotrone Trieste
– name: Università di Roma La Sapienza
– name: CNR-ISC
Author_xml – sequence: 1
  givenname: Mattia
  surname: Scardamaglia
  fullname: Scardamaglia, Mattia
  email: mattia.scardamaglia@roma1.infn.it, carlo.mariani@uniroma1.it
– sequence: 2
  givenname: Simone
  surname: Lisi
  fullname: Lisi, Simone
– sequence: 3
  givenname: Silvano
  surname: Lizzit
  fullname: Lizzit, Silvano
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  givenname: Alessandro
  surname: Baraldi
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  fullname: Larciprete, Rosanna
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  givenname: Carlo
  surname: Mariani
  fullname: Mariani, Carlo
  email: mattia.scardamaglia@roma1.infn.it, carlo.mariani@uniroma1.it
– sequence: 7
  givenname: Maria Grazia
  surname: Betti
  fullname: Betti, Maria Grazia
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Issue 6
Keywords Moire fringes
Self-assembled layers
Coverage rate
Core levels
Thin films
Self-assembly
Electronic structure
Iron complexes
Graphene
Metallophthalocyanine
Free-standing film
Absorption spectra
X-ray photoelectron spectra
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Snippet Iron-phthalocyanine molecules self-assemble on the moiré pattern of graphene/Ir(111) as a flat and weakly interacting layer, as determined by core-level...
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SubjectTerms Cross-disciplinary physics: materials science; rheology
Exact sciences and technology
Materials science
Methods of nanofabrication
Physics
Self-assembly
Title Graphene-Induced Substrate Decoupling and Ideal Doping of a Self-Assembled Iron-phthalocyanine Single Layer
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