Open AccessDirect Observation of the Reduction of a Molecule on Nitrogen Pairs in Doped Graphene
Author(s) -
Mehdi Bouatou,
Sourav Mondal,
Cyril Chacon,
Frédéric Joucken,
Yann Girard,
Vincent Repain,
Amandine Bellec,
Sylvie Rousset,
Shobharasimhan,
R. Sporken,
Yannick J. Dappe,
Jérôme Lagoute
Publication year - 2020
Publication title -
nano letters
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 4.853
H-Index - 488
eISSN - 1530-6992
pISSN - 1530-6984
DOI - 10.1021/acs.nanolett.0c03030
Subject(s) - graphene , dopant , chemical physics , molecule , scanning tunneling microscope , redistribution (election) , doping , nitrogen , charge (physics) , materials science , nanotechnology , substrate (aquarium) , chemistry , optoelectronics , organic chemistry , physics , oceanography , geology , quantum mechanics , politics , political science , law
Incorporating functional atomic sites in graphene is essential for realizing advanced two-dimensional materials. Doping graphene with nitrogen offers the opportunity to tune its chemical activity with significant charge redistribution occurring between molecules and substrate. The necessary atomic scale understanding of how this depends on the spatial distribution of dopants, as well as their positions relative to the molecule, can be provided by scanning tunneling microscopy. Here we show that a noncovalently bonded molecule such as CoPc undergoes a variable charge transfer when placed on N-doped graphene; on a nitrogen pair, it undergoes a redox reaction with an integral charge transfer whereas a lower fractional charge transfer occurs over a single nitrogen. Thus, the charge state of molecules can be tuned by suitably tailoring the conformation of dopant atoms.
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