"13440" . "Electrically conductive aluminosilicate/graphene nanocomposite"@en . . . "10.1016/j.jeurceramsoc.2014.03.021" . "Electrically conductive aluminosilicate/graphene nanocomposite" . . "7"^^ . . . "Neuwirthov\u00E1, Lucie" . . "14081" . "8"^^ . "34" . . "000337863800028" . "Journal of the European Ceramic Society" . . "I" . "RIV/44555601:13440/14:43885843" . "Tokarsk\u00FD, Jon\u00E1\u0161" . "Highly electrically conductive ceramic material based on aluminosilicate/graphene nanocomposite has been prepared by high pressure (400 MPa)compaction of montmorillonite intercalated with polyaniline followed with the high temperature (1400 degrees C) treatment in argon atmosphere. Tabletspressed from polyaniline/montmorillonite intercalate exhibits strong texture due to the disk-shaped montmorillonite particles and, consequently,the high anisotropy in conductivity. The high temperature induced phase transformation of montmorillonite into cristobalite and mullite preservedthe aluminosilicate layered structure and created good conditions for formation of graphene sheets from polyaniline layers intercalated in montmo-rillonite. Therefore, the texture and anisotropy in conductivity remain preserved in resulting aluminosilicate/graphene tablets, while the in-planeconductivity in aluminosilicate/graphene tablets is 23,000x higher than the conductivity of uncalcined polyaniline/montmorillonite tablets. Simplefabrication method of aluminosilicate/graphene tablets is very promising for the manufacturing of the electrically conductive and tough ceramicmaterial, which can be exposed to corrosive environment as well as to high temperatures."@en . "Peikertov\u00E1, Pavl\u00EDna" . "1"^^ . "\u010Capkov\u00E1, Pavla" . . "Electrically conductive aluminosilicate/graphene nanocomposite" . "Kulh\u00E1nkov\u00E1, Lenka" . "St\u00FDskala, V\u00EDt\u011Bzslav" . . . "Calcination; Conductivity; Polyaniline; Graphene; Aluminosilicate"@en . . . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . "Highly electrically conductive ceramic material based on aluminosilicate/graphene nanocomposite has been prepared by high pressure (400 MPa)compaction of montmorillonite intercalated with polyaniline followed with the high temperature (1400 degrees C) treatment in argon atmosphere. Tabletspressed from polyaniline/montmorillonite intercalate exhibits strong texture due to the disk-shaped montmorillonite particles and, consequently,the high anisotropy in conductivity. The high temperature induced phase transformation of montmorillonite into cristobalite and mullite preservedthe aluminosilicate layered structure and created good conditions for formation of graphene sheets from polyaniline layers intercalated in montmo-rillonite. Therefore, the texture and anisotropy in conductivity remain preserved in resulting aluminosilicate/graphene tablets, while the in-planeconductivity in aluminosilicate/graphene tablets is 23,000x higher than the conductivity of uncalcined polyaniline/montmorillonite tablets. Simplefabrication method of aluminosilicate/graphene tablets is very promising for the manufacturing of the electrically conductive and tough ceramicmaterial, which can be exposed to corrosive environment as well as to high temperatures." . . "Mat\u011Bjka, Vlastimil" . "RIV/44555601:13440/14:43885843!RIV15-MSM-13440___" . "Be\u0148o, Jaroslav" . . "[B6E0844BDFE9]" . . "0955-2219" . "Electrically conductive aluminosilicate/graphene nanocomposite"@en . "12" .