Highly-Oriented Molecular Arrangements and Enhanced Magnetic Interactions in Thin Films of CoTTDPz using PTCDA Templates
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Accepted version
Author(s)
Type
Journal Article
Abstract
In the present work, the templating effect of thin layers of perylene-3,4,9,10-tetracarboxylic dianhydride
(PTCDA) on the growth of cobalt tetrakis(thiadiazole)porphyrazine (CoTTDPz) thin films was examined.
X-ray diffraction and optical absorption spectra indicate that while CoTTDPz forms amorphous thin films
on the bare substrates, it forms crystalline thin films on the PTCDA templates, in which the molecular
planes of CoTTDPz are considered to be parallel to the substrates. Magnetic measurements reveal a
significantly enhanced antiferromagnetic interaction of CoTTDPz in the templated thin films, with values
reaching over 13 K. The ability to generate crystalline films and to control their orientation using
molecular templates is an important strategy in the fields of organic electronics and spintronics in order
to tailor the physical properties of organic thin films to suit their intended application.
(PTCDA) on the growth of cobalt tetrakis(thiadiazole)porphyrazine (CoTTDPz) thin films was examined.
X-ray diffraction and optical absorption spectra indicate that while CoTTDPz forms amorphous thin films
on the bare substrates, it forms crystalline thin films on the PTCDA templates, in which the molecular
planes of CoTTDPz are considered to be parallel to the substrates. Magnetic measurements reveal a
significantly enhanced antiferromagnetic interaction of CoTTDPz in the templated thin films, with values
reaching over 13 K. The ability to generate crystalline films and to control their orientation using
molecular templates is an important strategy in the fields of organic electronics and spintronics in order
to tailor the physical properties of organic thin films to suit their intended application.
Date Issued
2016-05-09
Date Acceptance
2016-05-09
Citation
Physical Chemistry Chemical Physics, 2016, 18, pp.17360-17365
ISSN
1463-9084
Publisher
Royal Society of Chemistry
Start Page
17360
End Page
17365
Journal / Book Title
Physical Chemistry Chemical Physics
Volume
18
Copyright Statement
© The Royal Society of Chemistry 2016
Sponsor
The Royal Society
Engineering & Physical Science Research Council (EPSRC)
Engineering & Physical Science Research Council (EPSRC)
Grant Number
502008.K617/kk
EP/F039948/1
EP/F04139X/1
Subjects
Chemical Physics
02 Physical Sciences
03 Chemical Sciences
Publication Status
Published