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Volumn 41, Issue 1, 2013, Pages 848-851
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Improved microbial fuel cell performance by encapsulating microbial cells with a nickel-coated sponge
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Author keywords
Biofilm; Macro porous structure; Microbial fuel cells; Nickel coated sponge
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Indexed keywords
ANODE CHAMBERS;
ANODIC MATERIALS;
CARBON PAPER;
CHEMICAL OXYGEN DEMAND REMOVALS;
ELECTRICITY GENERATION;
ELECTROCHEMICAL ACTIVITIES;
ELECTRON TRANSFER;
FUEL CELL PERFORMANCE;
HIGH SURFACE AREA;
IMMOBILIZATION METHOD;
MAXIMUM POWER DENSITY;
MICROBIAL BIOFILM;
MICROBIAL CELLS;
NICKEL-COATED SPONGE;
POWER OUT PUT;
SUBSTRATE TRANSFER;
AUTOMOBILE MANUFACTURE;
BIOFILMS;
CHEMICAL OXYGEN DEMAND;
ELECTRIC GENERATORS;
ELECTRON TRANSITIONS;
MICROBIAL FUEL CELLS;
NICKEL COATINGS;
NICKEL;
BIOMATERIAL;
POLYURETHAN;
ARTICLE;
CELL ADHESION;
CELL ENCAPSULATION;
CHEMICAL OXYGEN DEMAND;
CONTROLLED STUDY;
ELECTROCHEMISTRY;
ELECTRON TRANSPORT;
IMMOBILIZED CELL;
MATERIAL COATING;
MICROBIAL COLONIZATION;
MICROBIAL FUEL CELL;
NONHUMAN;
PHYSICAL CHEMISTRY;
POROSITY;
SCANNING ELECTRON MICROSCOPY;
STRUCTURE ANALYSIS;
SURFACE PROPERTY;
BIOFILM;
CARBON PAPER;
COMPOSITE MATERIAL;
ELECTRICITY;
NICKEL COATED SPONGE BIOFILM;
PAPER;
SURFACE CHARGE;
THREE DIMENSIONAL IMAGING;
BACTERIAL PHENOMENA AND FUNCTIONS;
BIOENERGY;
CHEMISTRY;
ELECTRODE;
ENERGY TRANSFER;
EQUIPMENT;
EQUIPMENT DESIGN;
EQUIPMENT FAILURE;
GENETIC PROCEDURES;
MICROBIOLOGY;
SYNTHESIS;
BACTERIAL PHYSIOLOGICAL PHENOMENA;
BIOELECTRIC ENERGY SOURCES;
BIOSENSING TECHNIQUES;
COATED MATERIALS, BIOCOMPATIBLE;
ELECTRODES;
ENERGY TRANSFER;
EQUIPMENT DESIGN;
EQUIPMENT FAILURE ANALYSIS;
NICKEL;
POLYURETHANES;
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EID: 84870825986
PISSN: 09565663
EISSN: 18734235
Source Type: Journal
DOI: 10.1016/j.bios.2012.08.014 Document Type: Article |
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Times cited : (34)
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References (22)
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