"Investigation Of A Zirconium Electrode As A Sensor For Fluoride Ions"
Anal. Chim. Acta
1993 Volume 273, Issue 1-2 Pages 267-274
Notice (8): Undefined variable: uid [APP/View/Elements/citation.ctp, line 40]Code Context ?>
<?php
if($uid!='') {
$viewFile = '/home/stuchalk/public_html/fad/app/View/Elements/citation.ctp'
$dataForView = array(
'data' => array(
'Technique' => array(
'id' => '0240',
'label' => 'Electrode',
'level1' => 'Electrode',
'level2' => 'zirconium',
'level3' => '',
'level4' => '',
'level5' => '',
'synonyms' => '',
'champ' => '',
'total' => '1',
'updated' => '0000-00-00 00:00:00',
'name' => 'Electrode, zirconium',
'nametotal' => 'Electrode, zirconium**1',
'first' => 'E'
),
'Citation' => array(
(int) 0 => array(
[maximum depth reached]
)
)
),
'c' => array(
'id' => '005841',
'authors' => 'Pihlar, B.;Cencic, Z.',
'authorsweb' => 'B. Pihlar* and Z. Cenci',
'title' => 'Investigation of a zirconium electrode as a sensor for fluoride ions',
'journal' => 'Anal. Chim. Acta',
'journal_id' => '0584',
'fadid' => 'ANCA1993V0273P00267',
'year' => '1993',
'volume' => '273',
'issue' => '1-2',
'startpage' => '267',
'endpage' => '274',
'type' => 'Journal Article',
'analytes' => ';0982;',
'matrices' => '',
'techniques' => ';0240;0426;',
'keywords' => '',
'abstract' => 'The effect of fluoride ions on the electrochemical behavior of a zirconium metal electrode was investigated. Since zirconium metal is always covered by a layer of oxide, the anodic characteristic of a Zr/ZrO2 electrode depends highly on the electrolyte composition. Only in hydrochloric and perchloric acid media was a direct proportionality between fluoride concentration and anodic current density found. In other electrolytes the fluoride ion-induced dissolution of the zirconium metal leads to an increase in ZrO2 film thickness, and as a consequence, the mass transport of fluoride through the oxide layer is hindered. The mechanism of the zirconium electrode dissolution at low concentrations of fluoride (below 1 x 10^-3 M) seems to be different from that at high concentrations. The dependence of the equilibrium potential on the fluoride concentration is far from the Nernstian one, and a zirconium electrode could be successfully applied in the potentiometric mode of operation only as an indicator electrode in titrations. The proportionality between the anodic current density and the fluoride ion concentration in perchloric acid media could be exploited for the amperometric detection of fluoride. With a thin-layer cell and a zirconium metal based indicator electrode, nanogram amounts of fluoride could be detected by a simple flow injection system. ',
'language' => 'English',
'updated' => '2020-12-28 11:25:15',
'sjccheck' => 'Yes',
'sjccheckdate' => '0000-00-00 00:00:00',
'hits' => '3',
'urlcheck' => '2014-10-11 16:08:38',
'urlcheckcode' => 'HTTP/1.1 302 Found',
'pauthor_id' => '01234',
'pauthor' => '!Pihlar, B.',
'address' => 'pau',
'email' => 'pau',
'notes' => null,
'url' => '10.1016/0003-2670(93)80166-I',
'urltype' => 'doi',
'gotpdf' => 'yes',
'partial' => 'no',
'notanalyte' => '',
'citation' => ''Investigation of a zirconium electrode as a sensor for fluoride ions', Anal. Chim. Acta, 1993 273(1-2) 267-274',
'firstchar' => 'I',
'twochars' => 'In',
'CitationsTechnique' => array(
'id' => '002269',
'citation_id' => '005841',
'technique_id' => '0240'
),
'Analyte' => array(
(int) 0 => array(
[maximum depth reached]
)
),
'Matrix' => array(),
'Keyword' => array()
),
'i' => (int) 0
)
$data = array(
'Technique' => array(
'id' => '0240',
'label' => 'Electrode',
'level1' => 'Electrode',
'level2' => 'zirconium',
'level3' => '',
'level4' => '',
'level5' => '',
'synonyms' => '',
'champ' => '',
'total' => '1',
'updated' => '0000-00-00 00:00:00',
'name' => 'Electrode, zirconium',
'nametotal' => 'Electrode, zirconium**1',
'first' => 'E'
),
'Citation' => array(
(int) 0 => array(
'id' => '005841',
'authors' => 'Pihlar, B.;Cencic, Z.',
'authorsweb' => 'B. Pihlar* and Z. Cenci',
'title' => 'Investigation of a zirconium electrode as a sensor for fluoride ions',
'journal' => 'Anal. Chim. Acta',
'journal_id' => '0584',
'fadid' => 'ANCA1993V0273P00267',
'year' => '1993',
'volume' => '273',
'issue' => '1-2',
'startpage' => '267',
'endpage' => '274',
'type' => 'Journal Article',
'analytes' => ';0982;',
'matrices' => '',
'techniques' => ';0240;0426;',
'keywords' => '',
'abstract' => 'The effect of fluoride ions on the electrochemical behavior of a zirconium metal electrode was investigated. Since zirconium metal is always covered by a layer of oxide, the anodic characteristic of a Zr/ZrO2 electrode depends highly on the electrolyte composition. Only in hydrochloric and perchloric acid media was a direct proportionality between fluoride concentration and anodic current density found. In other electrolytes the fluoride ion-induced dissolution of the zirconium metal leads to an increase in ZrO2 film thickness, and as a consequence, the mass transport of fluoride through the oxide layer is hindered. The mechanism of the zirconium electrode dissolution at low concentrations of fluoride (below 1 x 10^-3 M) seems to be different from that at high concentrations. The dependence of the equilibrium potential on the fluoride concentration is far from the Nernstian one, and a zirconium electrode could be successfully applied in the potentiometric mode of operation only as an indicator electrode in titrations. The proportionality between the anodic current density and the fluoride ion concentration in perchloric acid media could be exploited for the amperometric detection of fluoride. With a thin-layer cell and a zirconium metal based indicator electrode, nanogram amounts of fluoride could be detected by a simple flow injection system. ',
'language' => 'English',
'updated' => '2020-12-28 11:25:15',
'sjccheck' => 'Yes',
'sjccheckdate' => '0000-00-00 00:00:00',
'hits' => '3',
'urlcheck' => '2014-10-11 16:08:38',
'urlcheckcode' => 'HTTP/1.1 302 Found',
'pauthor_id' => '01234',
'pauthor' => '!Pihlar, B.',
'address' => 'pau',
'email' => 'pau',
'notes' => null,
'url' => '10.1016/0003-2670(93)80166-I',
'urltype' => 'doi',
'gotpdf' => 'yes',
'partial' => 'no',
'notanalyte' => '',
'citation' => ''Investigation of a zirconium electrode as a sensor for fluoride ions', Anal. Chim. Acta, 1993 273(1-2) 267-274',
'firstchar' => 'I',
'twochars' => 'In',
'CitationsTechnique' => array(
[maximum depth reached]
),
'Analyte' => array(
[maximum depth reached]
),
'Matrix' => array([maximum depth reached]),
'Keyword' => array([maximum depth reached])
)
)
)
$c = array(
'id' => '005841',
'authors' => 'Pihlar, B.;Cencic, Z.',
'authorsweb' => 'B. Pihlar* and Z. Cenci',
'title' => 'Investigation of a zirconium electrode as a sensor for fluoride ions',
'journal' => 'Anal. Chim. Acta',
'journal_id' => '0584',
'fadid' => 'ANCA1993V0273P00267',
'year' => '1993',
'volume' => '273',
'issue' => '1-2',
'startpage' => '267',
'endpage' => '274',
'type' => 'Journal Article',
'analytes' => ';0982;',
'matrices' => '',
'techniques' => ';0240;0426;',
'keywords' => '',
'abstract' => 'The effect of fluoride ions on the electrochemical behavior of a zirconium metal electrode was investigated. Since zirconium metal is always covered by a layer of oxide, the anodic characteristic of a Zr/ZrO2 electrode depends highly on the electrolyte composition. Only in hydrochloric and perchloric acid media was a direct proportionality between fluoride concentration and anodic current density found. In other electrolytes the fluoride ion-induced dissolution of the zirconium metal leads to an increase in ZrO2 film thickness, and as a consequence, the mass transport of fluoride through the oxide layer is hindered. The mechanism of the zirconium electrode dissolution at low concentrations of fluoride (below 1 x 10^-3 M) seems to be different from that at high concentrations. The dependence of the equilibrium potential on the fluoride concentration is far from the Nernstian one, and a zirconium electrode could be successfully applied in the potentiometric mode of operation only as an indicator electrode in titrations. The proportionality between the anodic current density and the fluoride ion concentration in perchloric acid media could be exploited for the amperometric detection of fluoride. With a thin-layer cell and a zirconium metal based indicator electrode, nanogram amounts of fluoride could be detected by a simple flow injection system. ',
'language' => 'English',
'updated' => '2020-12-28 11:25:15',
'sjccheck' => 'Yes',
'sjccheckdate' => '0000-00-00 00:00:00',
'hits' => '3',
'urlcheck' => '2014-10-11 16:08:38',
'urlcheckcode' => 'HTTP/1.1 302 Found',
'pauthor_id' => '01234',
'pauthor' => '!Pihlar, B.',
'address' => 'pau',
'email' => 'pau',
'notes' => null,
'url' => '10.1016/0003-2670(93)80166-I',
'urltype' => 'doi',
'gotpdf' => 'yes',
'partial' => 'no',
'notanalyte' => '',
'citation' => ''Investigation of a zirconium electrode as a sensor for fluoride ions', Anal. Chim. Acta, 1993 273(1-2) 267-274',
'firstchar' => 'I',
'twochars' => 'In',
'CitationsTechnique' => array(
'id' => '002269',
'citation_id' => '005841',
'technique_id' => '0240'
),
'Analyte' => array(
(int) 0 => array(
'id' => '00982',
'name' => 'Fluoride',
'iupac_name' => 'fluoride',
'casrn' => '16984-48-8',
'synonyms' => 'Fluoride; Fluorides; Fluoride ion; Fluorine, ion; Perfluoride',
'total' => '77',
'inchi' => 'InChI=1S/FH/h1H/p-1',
'inchikey' => 'KRHYYFGTRYWZRS-UHFFFAOYSA-M',
'formula' => 'F-',
'oxstate' => '-1',
'url' => '',
'charge' => '-1',
'class1' => 'Element',
'class2' => 'Non-metal',
'class3' => 'Halogen',
'class4' => 'Anion',
'class5' => '',
'isgroup' => '',
'checked' => 'yes',
'citation_count' => '0',
'updated' => '2015-10-23 09:58:10',
'first' => 'F',
'nametotal' => 'Fluoride**77',
'AnalytesCitation' => array(
[maximum depth reached]
)
)
),
'Matrix' => array(),
'Keyword' => array()
)
$i = (int) 0
$path = ''
$a = ''
$url = 'http://dx.doi.org/10.1016/0003-2670(93)80166-I'
$aus = 'B. Pihlar* and Z. Cenci'
include - APP/View/Elements/citation.ctp, line 40
View::_evaluate() - CORE/Cake/View/View.php, line 971
View::_render() - CORE/Cake/View/View.php, line 933
View::_renderElement() - CORE/Cake/View/View.php, line 1224
View::element() - CORE/Cake/View/View.php, line 418
include - APP/View/Techniques/view.ctp, line 52
View::_evaluate() - CORE/Cake/View/View.php, line 971
View::_render() - CORE/Cake/View/View.php, line 933
View::render() - CORE/Cake/View/View.php, line 473
Controller::render() - CORE/Cake/Controller/Controller.php, line 968
Dispatcher::_invoke() - CORE/Cake/Routing/Dispatcher.php, line 200
Dispatcher::dispatch() - CORE/Cake/Routing/Dispatcher.php, line 167
[main] - APP/webroot/index.php, line 109
B. Pihlar* and Z. Cenci
Abstract:
The effect of fluoride ions on the electrochemical behavior of a zirconium metal electrode was investigated. Since zirconium metal is always covered by a layer of oxide, the anodic characteristic of a Zr/ZrO2 electrode depends highly on the electrolyte composition. Only in hydrochloric and perchloric acid media was a direct proportionality between fluoride concentration and anodic current density found. In other electrolytes the fluoride ion-induced dissolution of the zirconium metal leads to an increase in ZrO2 film thickness, and as a consequence, the mass transport of fluoride through the oxide layer is hindered. The mechanism of the zirconium electrode dissolution at low concentrations of fluoride (below 1 x 10^-3 M) seems to be different from that at high concentrations. The dependence of the equilibrium potential on the fluoride concentration is far from the Nernstian one, and a zirconium electrode could be successfully applied in the potentiometric mode of operation only as an indicator electrode in titrations. The proportionality between the anodic current density and the fluoride ion concentration in perchloric acid media could be exploited for the amperometric detection of fluoride. With a thin-layer cell and a zirconium metal based indicator electrode, nanogram amounts of fluoride could be detected by a simple flow injection system.
Fluoride