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ON THE MEANING OF THE IMPEDANCE CONCEPT IN THE CASE OF AN OBJECT THAT VARIES WITH TIME AND IN THE CASE OF A SWEPT FREQUENCYSLUYTERS REHBACH M; SLUYTERS JH.1979; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NLD; DA. 1979; VOL. 102; NO 3; PP. 415-419; BIBL. 7 REF.Article

THE CURRENT-POTENTIAL RELATIONSHIP FOR DIFFERENTIAL PULSE POLAROGRAPHY.RUZIC I; SLUYTERS REHBACH M.1978; ANAL. CHIM. ACTA; PAYS-BAS; DA. 1978; VOL. 99; NO 1; PP. 177-182; BIBL. 12 REF.Article

SOME BASIC VIEWS ON THE INFLUENCE OF REACTANT ADSORPTION ON WAVE SHAPES IN D.C., A.C. AND LINEAR SWEEP VOLTAMMETRYSLUYTERS REHBACH M; SLUYTERS JH.1975; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NETHERL.; DA. 1975; VOL. 65; NO 2; PP. 831-841; BIBL. 25 REF.Article

A DC POLAROGRAPHIC STUDY OF THE REDUCTION OF OXYGEN CATALYZED BY ADSORBED PB(II) SPECIESPIETERSE MMJ; SLUYTERS REHBACH M; SLUYTERS JH et al.1980; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NLD; DA. 1980; VOL. 109; NO 1-3; PP. 41-56; BIBL. 29 REF.Article

THE REDUCTION MECHANISM AT THE MERCURY ELECTRODE IN A 0.9M CACLO4+0.1M HCLO4 SUPPORTING ELECTROLYTE OF AN HYDROXYTRIPHENYLMETHANE: ERIOCHROME CYANINE RBOODTS JFC; SLUYTERS REHBACH M; SLUYTERS JH et al.1979; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NLD; DA. 1979; VOL. 105; NO 1; PP. 189-203; BIBL. 22 REF.Article

AN ELECTROCHEMICAL AND OPTICAL STUDY OF THE RUPTURE AND RESTORATION OF THE PASSIVATING HGO MULTILAYER ON A DROPPING MERCURY ELECTRODE IN AQUEOUS 1M NAOH SOLUTION AT ANODIC POTENTIALSPIETERSE MMJ; SLUYTERS REHBACH M; SLUYTERS JH et al.1979; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NLD; DA. 1979; VOL. 105; NO 2; PP. 269-274; BIBL. 6 REF.Article

ON THE SHAPE OF THE REVERSIBLE D.C. POLAROGRAM COMPLICATED BY REACTANT AND/OR REACTION PRODUCT ADSORPTION AT THE SURFACE OF THE DROPPING MERCURY ELECTRODE.SLUYTERS REHBACH M; WIJNHORST CA; SLUYTERS JH et al.1976; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NETHERL.; DA. 1976; VOL. 74; NO 1; PP. 3-17; BIBL. 14 REF.Article

ON SECOND-ORDER EFFECTS IN A GALVANIC CELLS. III: APPLICATION TO MODULATION POLAROGRAPHYWOLSINK JH; SLUYTERS REHBACH M; SLUYTERS JH et al.1981; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; ISSN 0022-0728; CHE; DA. 1981; VOL. 117; NO 2; PP. 213-219; BIBL. 9 REF.Article

A FARADAIC IMPEDANCE STUDY OF THE REDUCTION OF OXYGEN FROM AQUEOUS ALKALINE SOLUTION AT THE DROPPING MERCURY ELECTRODEPIETERSE MMJ; SLUYTERS REHBACH M; SLUYTERS JH et al.1980; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NLD; DA. 1980; VOL. 107; NO 2; PP. 247-256; BIBL. 24 REF.Article

A HIGH-PRECISION NETWORK ANALYZER SYSTEM FOR THE MEASUREMENT OF THE ELECTRODE IMPEDANCE OF BOTH STATIONARY AND NON-STATIONARY ELECTRODE, WITH SPECIAL ATTENTION TO THE DROPPING MERCURY ELECTRODEBONGENAAR CPM; SLUYTERS REHBACH M; SLUYTERS JH et al.1980; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NLD; DA. 1980; VOL. 109; NO 1-3; PP. 23-29; BIBL. 29 REF.Article

AN INVESTIGATION OF THE MECHANISM OF THE EU(III)/EU(II) ELECTRODE REACTION IN THE PRESENCE OF EDTAKISOVA L; SLUYTERS REHBACH M; SLUYTERS JH et al.1972; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NETHERL.; DA. 1972; VOL. 40; NO 1; PP. 29-43; BIBL. 25 REF.Serial Issue

ON SECOND-ORDER EFFECTS IN A GALVANIC CELL. IV: A THEORY OF DEMODULATION POLAROGRAPHYSTRUIJS J; SLUYTERS REHBACH M; SLUYTERS JH et al.1983; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; ISSN 0022-0728; CHE; DA. 1983; VOL. 143; NO 1-2; PP. 37-59; BIBL. 18 REF.Article

A DC, AC AND DEMODULATION STUDY OF THE TRIS-OXALATO FE(III)/TRIS-OXALATO FE(II) REDOX COUPLE IN 1 M AQUEOUS OXALATE SOLUTION AT THE DROPPING MERCURY ELECTRODESTRUIJS J; SLUYTERS REHBACH M; SLUYTERS JH et al.1983; JOURNAL OF ELECTROANALYTICAL CHEMISTRY AND INTERFACIAL ELECTROCHEMISTRY; ISSN 0022-0728; CHE; DA. 1983; VOL. 146; NO 2; PP. 263-278; BIBL. 21 REF.Article

ON THE RELIABILITY OF IMPEDANCE AND ADMITTANCE DATA MEASURED WITH LIMITED BANDWIDTH AT AN OBJECT THAT VARIES WITH TIME, THE DROPPING MERCURY ELECTRODE, ALSO COMPLICATED BY SHIELDING EFFECTS, IN PARTICULARSLUYTERS REHBACH M; BREUKEL JSMC; SLUYTERS JH et al.1979; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NLD; DA. 1979; VOL. 102; NO 3; PP. 303-313; BIBL. 10 REF.Article

ON THE USE OF THE HANGING MERCURY DROP AND THE DROPPING MERCURY ELECTRODE, SITUATED IN A BROAD HOMOGENEOUS BEAM OF LIGHT AS THE OBJECT IN REFLECTOMETRY AND ELLIPSOMETRY.PIETERSE MMJ; SLUYTERS REHBACH M; SLUYTERS JH et al.1978; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NETHERL.; DA. 1978; VOL. 91; NO 1; PP. 55-62; BIBL. 5 REF.Article

A DYNAMIC ELLIPSOMETRIC STUDY OF THE ATMOSPHERIC OXIDATION OF A MERCURY DROPPIETERSE MMJ; SLUYTERS REHBACH M; SLUYTERS JH et al.1978; Z. PHYS. CHEM. (NEUE FOLGE); ISSN 0044-3336; DEU; DA. 1978; VOL. 113; NO 1; PP. 117-124; ABS. GER; BIBL. 16 REF.Article

A FARADAIC IMPEDANCE STUDY OF THE STEP-WISE CUPRIC ION REDUCTION AT THE DME IN AQUEOUS FLUORIDE SOLUTIONS CONTAINING AMMONIAVERKROOST AWM; SLUYTERS REHBACH M; SLUYTERS JH et al.1972; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NETHERL.; DA. 1972; VOL. 39; NO 1; PP. 147-156; BIBL. 14 REF.Serial Issue

ON THE ELUCIDATION OF MECHANISMS OF ELECTRODE REACTIONS BY COMBINATION OF A.C.- AND FARADAIC RECTIFICATION POLAROGRAPHY. APPLICATION TO THE ZN2+/ZN(HG) AND CD2+/CD(HG) REDUCTIONVAN DER POL F; SLUYTERS REHBACH M; SLUYTERS JH et al.1975; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NETHERL.; DA. 1975; VOL. 58; NO 1; PP. 177-188; BIBL. 28 REF.Article

THE MECHANISM OF THE REDUCTION OF ZN(II) FROM NACLO4 BASE ELECTROLYTE SOLUTIONS AT THE DMEANDREU R; SLUYTERS REHBACH M; REMIJNSE AG et al.1982; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; ISSN 0022-0728; CHE; DA. 1982; VOL. 134; NO 1; PP. 101-115; BIBL. 29 REF.Article

A THEORETICAL STUDY OF FARADAIC RECTIFICATION POLAROGRAPHYVAN DER POL F; SLUYTERS REHBACH M; SLUYTERS JH et al.1972; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; NETHERL.; DA. 1972; VOL. 40; NO 1; PP. 209-217; BIBL. 16 REF.Serial Issue

THE ELECTROCHEMICAL REDUCTION OF OXYGEN TO HYDROGEN PEROXIDE AT THE DROPPING MERCURY ELECTRODE. II: ITS KINETICS AT 0.4 <OU= PH <OU= 5.9VAN VELZEN CJ; REMIJNSE AG; SLUYTERS REHBACH M et al.1982; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; ISSN 0022-0728; CHE; DA. 1982; VOL. 142; NO 1-2; PP. 229-242; BIBL. 10 REF.Article

ON THE SELECTION OF THE MOST PROBABLE MECHANISM OF THE CD(II) REDUCTION AT MERCURY FROM 1M KF SOLUTIONBONGENAAR CPM; REMIJNSE AG; SLUYTERS REHBACH M et al.1980; J. ELECTROANAL. CHEM. INTERFACIAL ELECTROCHEM.; ISSN 0022-0728; CHE; DA. 1980; VOL. 111; NO 2-3; PP. 139-153; BIBL. 34 REF.Article

The relation between electrical double layer data and electronic work functions for amalgamsKOENE, L; SLUYTERS-REHBACH, M; SLUYTERS, J. H et al.Journal of electroanalytical chemistry (1992). 1995, Vol 396, Num 1-2, pp 569-581, issn 1572-6657Article

Application of the dropping mercury microelectrode (DMμE) in electrode kinetics and electroanalysisBAARS, A; SLUYTERS-REHBACH, M; SLUYTERS, J. H et al.Journal of electroanalytical chemistry (1992). 1994, Vol 364, Num 1-2, pp 189-197, issn 1572-6657Article

The theory of the interfacial impedance in the case of the ECE and the ECCE mechanism and its application to the electrochemical reduction of nitromethane on mercury from aqueous 1 M KCl at pH 9RUEDA, M; SLUYTERS-REHBACH, M; SLUYTERS, J. H et al.Journal of electroanalytical chemistry and interfacial electrochemistry. 1989, Vol 261, Num 1, pp 23-38, issn 0022-0728Article

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