Carbon Allotropes-Based Paints and Their Composite Coatings for Electromagnetic Shielding Applications

The present manuscript reports on optimized formulations of alcohol-based conductive paints for electromagnetic interference shielding (EMI), which can ensure compatibility and reduce the visibility of electronic equipment, as a continuation of our previous work in this field, which examined water-b...

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Bibliographic Details
Published in:Nanomaterials (Basel, Switzerland) Switzerland), 2022-05, Vol.12 (11), p.1839
Main Authors: Tudose, Ioan Valentin, Mouratis, Kyriakos, Ionescu, Octavian Narcis, Romanitan, Cosmin, Pachiu, Cristina, Pricop, Emil, Khomenko, Volodymyr H, Butenko, Oksana, Chernysh, Oksana, Barsukov, Viacheslav Z, Suchea, Mirela Petruta, Koudoumas, Emmanouel
Format: Article
Language:English
Subjects:
Air temperature
alcohol-based conductive paints
Allotropy
Black carbon
Carbon
Carbon black
carbon-based materials
Coatings
Composite materials
Dielectric properties
Drying
Electrical conductivity
Electrical resistivity
Electromagnetic interference
Electromagnetic radiation
Electromagnetic shielding
Electronic equipment
EMI shielding applications
Environmental testing
Formulations
Graphene
Graphite
Iron compounds
Iron ores
Iron oxides
Mixtures
multicomponent nanocomposites
Nanocomposites
Paints
Physical characteristics
Protective coatings
Radiation
Room temperature
Scanning electron microscopy
Thickness
Visibility
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Summary:The present manuscript reports on optimized formulations of alcohol-based conductive paints for electromagnetic interference shielding (EMI), which can ensure compatibility and reduce the visibility of electronic equipment, as a continuation of our previous work in this field, which examined water-based formulations for other applications. Graphite, carbon black, graphene, Fe O , Fe ore, and PEDOT:PSS in various ratios and combinations were employed in an alcohol base for developing homogeneous paint-like fluid mixtures that could be easily applied to surfaces with a paintbrush, leading to homogeneous, uniform, opaque layers, drying fast in the air at room temperature; these layers had a reasonably good electrical conductivity and, subsequently, an efficient EMI-shielding performance. Uniform, homogeneous and conductive layers with a thickness of over 1 mm without exfoliations and cracking were prepared with the developed paints, offering an attenuation of up to 50 dB of incoming GHz electromagnetic radiation. The structural and morphological characteristics of the paints, which were studied in detail, indicated that these are not simple physical mixtures of the ingredients but new composite materials. Finally, mechano-climatic and environmental tests on the coatings demonstrated their quality, since temperature, humidity and vibration stressors did not affect them; this result proves that these coatings are suitable for commercial products.
ISSN:2079-4991
2079-4991
DOI:10.3390/nano12111839