ACTIVATED CARBON CONDUCTIVITY From a granular commercial activated carbon (AC) and six metal oxide (Al2O3, Fe2O3, SnO2, TiO2, WO3, and ZnO) precursors, two series of AC–metal oxide nano composites were prepared by wet impregnation, oven-drying at 120 °C, and subsequent heat treatment at 200 or 850 °C in an inert atmosphere. the bulk electrical conductivity of the hybrid materials was strongly influenced by the intrinsic conductivity, mean crystallite size, content and chemical nature of the supported phases, which ultimately depend on the metal oxide precursor and heat treatment temperature. The supported nano particles may be considered to act as electrical switches either hindering or favoring the effective electron transport between the AC cores of neighboring composite particles in contact under compression. Conductivity values, as a rule, were lower for the nano composites than for the raw AC, all of them falling in the range of semiconductor materials. With the increase in heat treatment temperature, the trend is toward the improvement of conductivity due to the increase in the crystallite size and, in some cases, to the formation of metals in the elemental state and even metal carbides. #Activated-Carbon #Activated-Carbon-in-Vadodara #Activated-Carbon-in-gujarat #Activated-Carbon-in-india #Activated-Carbon-in pune #Activated-Carbon-in-tamilnadu #Activated-Carbon-in-karnataka #Activated-Carbon-in-indor #Activated-Carbon-in-goa #Activated-Carbon-in-shrinagar #Activated-Carbon-in-halol #Activated-Carbon-in-nagpur #Activated-Carbon-in-kolhapur #Activated-Carbon-in-cherapungi #Activated-Carbon-in-assam #Activated-Carbon-in-junaghdh