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Volumn 82, Issue 8, 2001, Pages 2008-2015
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Utilization of cellulose-triacetate-blended membranes for carrier-mediated transport of some metal ions
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Author keywords
Carrier mediated transport; Cellulose triacetate; Diffusion; FTIR; Ion sensing and separation; Ionophores; Polymer membranes; Sensor
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Indexed keywords
7 DODECENYL 8 HYDROXY QUINOLINE;
ATOMIC ABSORPTION SPECTROMETRY;
CELL MEMBRANE TRANSPORT;
CELL MEMBRANE;
CELLULOSE;
CONCENTRATION (PARAMETERS);
COPPER ION;
IONOPHORE;
LEAD;
METAL ION;
NITRIC ACID;
POLYMER;
QUINOLINE;
REACTION MECHANISM;
ABSORPTION SPECTROSCOPY;
ADDITION REACTIONS;
ASSAYS;
ATOMIC SPECTROSCOPY;
CELLULOSE;
COMPOSITION EFFECTS;
DIFFUSION;
IONS;
PLASTICIZERS;
PLASTICS CASTING;
POLYMER BLENDS;
TRANSPORT PROPERTIES;
ATOMIC ABSORPTION SPECTROMETRY;
CARRIER MEDIATED TRANSPORT;
CELLULOSE TRIACETATE BLENDED MEMBRANES;
DODECENYL HYDROXYQUINOLINE;
ION SENSING;
ION SEPARATION;
IONOPHORE;
METAL IONS;
SOLVENT CASTING;
POLYMERIC MEMBRANES;
DIFFUSION;
ORGANIC MEMBRANE;
POLYMER;
SENSOR;
SEPARATION;
CELLULOSE;
DIFFUSION;
ION EXCHANGE;
MEMBRANE;
METAL;
SEPARATION;
TRIACETATE;
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EID: 0035929908
PISSN: 00218995
EISSN: None
Source Type: Journal
DOI: 10.1002/app.2046 Document Type: Article |
Times cited : (5)
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References (29)
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