Synthesis of New Ruthenium Complexes and Their Exploratory Study as Polymer Hybrid Composites in Organic Electronics

Synthesis of New Ruthenium Complexes and Their Exploratory Study as Polymer Hybrid Composites in Organic Electronics

Polymeric hybrid films, for their application in organic electronics, were produced from new ruthenium indanones in poly(methyl methacrylate) (PMMA) by the drop-casting procedure. Initially, the synthesis and structural characterization of the ruthenium complexes were performed, and subsequently, th...

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Bibliographic Details
Published in:Polymers Vol. 16; no. 10; p. 1338
Main Authors: Ballinas-Indilí, Ricardo, Sánchez Vergara, María Elena, Rosales-Amezcua, Saulo C, Hernández Méndez, Joaquín André, López-Mayorga, Byron, Miranda-Ruvalcaba, René, Álvarez-Toledano, Cecilio
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 09-05-2024
Subjects:
Analysis
Atomic force microscopy
Chemical synthesis
Coordination compounds
Electronics
Energy gap
Hybrid composites
Infrared spectrophotometers
Infrared spectrophotometry
Knoop hardness
Ligands
Mechanical properties
Methods
Optics
Parameters
Polyethylene
Polymers
Polymethyl methacrylate
Polymethylmethacrylate
Ruthenium
Ruthenium compounds
Semiconductor materials
Semiconductors
Spectrophotometry
Structural analysis
Structure
Synthesis
Germany
United States > US
Japan
indanone
poly(methyl methacrylate)
bandgap
polymer hybrid composite
ruthenium complexes
semiconductor film
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Summary:Polymeric hybrid films, for their application in organic electronics, were produced from new ruthenium indanones in poly(methyl methacrylate) (PMMA) by the drop-casting procedure. Initially, the synthesis and structural characterization of the ruthenium complexes were performed, and subsequently, their properties as a potential semiconductor material were explored. Hence hybrid films in ruthenium complexes were deposited using PMMA as a polymeric matrix. The hybrid films were characterized by infrared spectrophotometry and atomic force microscopy. The obtained results confirmed that the presence of the ruthenium complexes enhanced the mechanical properties in addition to increasing the transmittance, favoring the determination of their optical parameters. Both hybrid films exhibited a maximum stress around 10.5 MPa and a Knoop hardness between 2.1 and 18.4. Regarding the optical parameters, the maximum transparency was obtained at wavelengths greater than 590 nm, the optical band gap was in the range of 1.73-2.24 eV, while the Tauc band gap was in the range of 1.68-2.17 eV, and the Urbach energy was between 0.29 and 0.50 eV. Consequently, the above comments are indicative of an adequate semiconductor behavior; hence, the target polymeric hybrid films must be welcomed as convenient candidates as active layers or transparent electrodes in organic electronics.
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content type line 23
ISSN:2073-4360
2073-4360
DOI:10.3390/polym16101338