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Volumn 33, Issue 1, 2012, Pages 172-178
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Design and field application of a UV-LED based optical fiber biofilm sensor
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Author keywords
Biofilm formation dynamics; Fiber optical sensor; Intrinsic tryptophan fluorescence; LED light source; Natural biofilm
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Indexed keywords
ANTIFOULING;
AQUATIC SCIENCE;
BACKGROUND SUPPRESSION;
BALTIC SEA;
BIOFILM FORMATION;
BIOMEDICAL FIELDS;
CHARACTERISTIC THREE;
CONTINUOUS OBSERVATION;
DEEP SEA RESEARCH;
DETECTION LIMITS;
FIBER OPTICAL SENSOR;
FIELD APPLICATION;
FIELD EXPERIMENT;
FORMATION DYNAMICS;
IN-SITU;
INTRINSIC FLUORESCENCE;
INTRINSIC TRYPTOPHAN FLUORESCENCES;
LED LIGHT SOURCE;
LIGHT COLLECTION;
LINEAR SIGNALS;
MARINE BACTERIUM;
MINIATURISATION;
NATURAL AQUATIC ENVIRONMENTS;
NATURAL ENVIRONMENTS;
NATURAL HABITAT;
NON-DESTRUCTIVE MONITORING;
OPTICAL FIBER BUNDLE;
OPTIMIZED SENSORS;
SENSOR SYSTEMS;
TECHNOLOGY RESEARCH;
UNICELLULAR MICROORGANISMS;
WIDE DYNAMIC RANGE;
AMINO ACIDS;
BACTERIA;
DYNAMICS;
FLUORESCENCE;
INDUSTRIAL RESEARCH;
LIGHT EMITTING DIODES;
LIGHT SOURCES;
MICROBIOLOGY;
OPTICAL FIBERS;
SENSORS;
BIOFILMS;
TRYPTOPHAN;
AQUATIC ENVIRONMENT;
ARTICLE;
BACTERIAL STRAIN;
BACTERIUM ADHERENCE;
BALTIC SEA;
BIOFILM;
CALIBRATION;
DEEP SEA SPECIES;
DEVICES;
ENVIRONMENTAL MONITORING;
EQUIPMENT DESIGN;
FLUORESCENCE ANALYSIS;
LIGHT EMITTING DIODE;
MARINE BACTERIUM;
MATHEMATICAL ANALYSIS;
MOLECULAR DYNAMICS;
NONHUMAN;
ONLINE ANALYSIS;
OPTICAL BIOSENSOR;
SPECIES HABITAT;
ULTRAVIOLET RADIATION;
BACTERIA;
BACTERIAL PHYSIOLOGICAL PHENOMENA;
BIOFILMS;
FLUORESCENCE;
OPTICAL FIBERS;
TRYPTOPHAN;
ULTRAVIOLET RAYS;
WATER MICROBIOLOGY;
BACTERIA (MICROORGANISMS);
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EID: 84857365269
PISSN: 09565663
EISSN: 18734235
Source Type: Journal
DOI: 10.1016/j.bios.2011.12.048 Document Type: Article |
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Times cited : (39)
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References (37)
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