Enhanced performance of a microbial fuel cell using CNT/MnO2 nanocomposite as a bioanode material

Journal of Nanoscience and Nanotechnology

Volumn 13, Issue 11, 2013, Pages 7712-7716

  Kalathil, Shafeer ^a   Nguyen, Van Hoa ^a   Shim, Jae Jin ^a   Khan, Mohammad Mansoob ^a   Lee, Jintae ^a   Cho, Moo Hwan ^a  

^a Yeungnam University   (South Korea)

Author keywords

Bioanode; Capacitance; CNT MnO2 nanocomposite; Microbial fuel cell; Power density

Indexed keywords

ANODE ELECTRODE MATERIALS; BIOANODE; BRUNAUER EMMETT TELLERS; CHARGE ACCUMULATION; ELECTROCHEMICAL PERFORMANCE; ELECTRON CONDUCTION; MAXIMUM POWER DENSITY; POWER DENSITIES;

CAPACITANCE; CELL MEMBRANES; MANGANESE OXIDE; MICROBIAL FUEL CELLS; MICROORGANISMS; NANOCOMPOSITES; OPEN CIRCUIT VOLTAGE; PAPER;

ANODES;

CARBON NANOTUBE; MANGANESE DERIVATIVE; MANGANESE DIOXIDE; OXIDE;

ANAEROBIC BACTERIUM; BIOENERGY; CHEMISTRY; DEVICE FAILURE ANALYSIS; DEVICES; ELECTRODE; ENERGY TRANSFER; EQUIPMENT DESIGN; MATERIALS TESTING; MICROBIOLOGY; NANOTECHNOLOGY; PARTICLE SIZE; PHYSIOLOGY; ULTRASTRUCTURE; ARTICLE; EQUIPMENT; EQUIPMENT FAILURE;

BACTERIA, ANAEROBIC; BIOELECTRIC ENERGY SOURCES; ELECTRODES; ENERGY TRANSFER; EQUIPMENT DESIGN; EQUIPMENT FAILURE ANALYSIS; MANGANESE COMPOUNDS; MATERIALS TESTING; NANOTECHNOLOGY; NANOTUBES, CARBON; OXIDES; PARTICLE SIZE;

EID: 84891525974     PISSN: 15334880     EISSN: 15334899     Source Type: Journal    
DOI: 10.1166/jnn.2013.7832     Document Type: Article

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