A graphene-based porous paper made of multilayer graphene (MLG) microsheets is developed for application as a flexible electrically conducting shielding material at radio frequency. The production process is based on the thermal expansion of a graphite intercalated compound, the successive liquid-phase exfoliation of the resulting expanded graphite in a proper solvent, and finally the vacuum filtration of the MLG-suspension using a nanoporous alumina membrane. Enhancement of the electrical conductivity and electromagnetic shielding properties of the MLG paper is achieved by gentle annealing at 250 °C overnight, and by mechanical compression at 5 MPa. The obtained results show that the developed MLG papers are characterized by an electrical conductivity up to 1443.2 S/cm, porosity around 43%, high flexibility, shielding effectiveness up to 55 dB at 18 GHz with a thickness of 18 μm. Numerical simulations are performed in order to understand the main factors contributing to the shielding performance of the new material
Highly conductive multilayer-graphene paper as a flexible lightweight electromagnetic shield / Paliotta, Licia; DE BELLIS, Giovanni; Tamburrano, Alessio; Marra, Fabrizio; Rinaldi, Andrea; Balijepalli, S. K.; Kaciulis, S.; Sarto, Maria Sabrina. - In: CARBON. - ISSN 0008-6223. - STAMPA. - 89:(2015), pp. 260-271. [10.1016/j.carbon.2015.03.043]
Highly conductive multilayer-graphene paper as a flexible lightweight electromagnetic shield
PALIOTTA, LICIA;DE BELLIS, GIOVANNI;TAMBURRANO, Alessio;MARRA, FABRIZIO;RINALDI, ANDREA;SARTO, Maria Sabrina
2015
Abstract
A graphene-based porous paper made of multilayer graphene (MLG) microsheets is developed for application as a flexible electrically conducting shielding material at radio frequency. The production process is based on the thermal expansion of a graphite intercalated compound, the successive liquid-phase exfoliation of the resulting expanded graphite in a proper solvent, and finally the vacuum filtration of the MLG-suspension using a nanoporous alumina membrane. Enhancement of the electrical conductivity and electromagnetic shielding properties of the MLG paper is achieved by gentle annealing at 250 °C overnight, and by mechanical compression at 5 MPa. The obtained results show that the developed MLG papers are characterized by an electrical conductivity up to 1443.2 S/cm, porosity around 43%, high flexibility, shielding effectiveness up to 55 dB at 18 GHz with a thickness of 18 μm. Numerical simulations are performed in order to understand the main factors contributing to the shielding performance of the new material| File | Dimensione | Formato | |
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