MCGLOTTEN, 1985 - Google Patents
ELECTROCHEMICAL BEHAVIOR OF MOLYBDENUM (VI) AND ITS REDUCTION PRODUCTS IN BUFFERED AQUEOUS SOLUTIONS (POLAROGRAPHY …MCGLOTTEN, 1985
- Document ID
- 7375603907793445723
- Author
- MCGLOTTEN J
- Publication year
External Links
Snippet
The polarographic reduction of molybdenum (VI) is examined in many buffered systems containing organic complexing agents. Several of these systems are shown to promote the reversible electrolytic reduction of molybdenum (VI) to molybdenum (V), whereas none is …
- 230000001603 reducing 0 title abstract description 9
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Bao et al. | Competitive inhibition by hydrogen peroxide produced in glucose oxidation catalyzed by glucose oxidase | |
| Fischer et al. | pH values and redox potentials in microsites of the rhizosphere | |
| Altomare et al. | Deactivation of immobilized beef liver catalase by hydrogen peroxide | |
| PT1165580E (en) | Catalytic Method for the Modification of Carbonic Acid Halides or Polyohyde Compounds | |
| GB1126813A (en) | Solid solutions of the transition metals nitrides and oxynitrides and methods of preparation thereof | |
| Pereira et al. | Electrochemical behavior of riboflavin immobilized on different matrices | |
| Tanaka et al. | Dinitrogen Fixation Catalyzed by the Reduced Species of [Fe4S4 (SPh) 4] 2− and [Mo2Fe6S8 (SPh) 9] 3− | |
| MCGLOTTEN | ELECTROCHEMICAL BEHAVIOR OF MOLYBDENUM (VI) AND ITS REDUCTION PRODUCTS IN BUFFERED AQUEOUS SOLUTIONS (POLAROGRAPHY, VOLTAMMETRY, CATALYTIC) | |
| Ramachandran et al. | Effects of immobilization on the kinetics of enzyme‐catalyzed reactions. I. Glucose oxidase in a recirculation reactor system | |
| Hershberger et al. | Electrocatalysis of ligand substitution in metal carbonyls. Thermodynamics of a chain process | |
| Khan et al. | Mononuclear bis (dimethylglyoximato) ruthenium (III) complexes with different appended axial groups: highly efficient catalysts for water oxidation | |
| Dmitrieva et al. | Synthesis of α-amino acids via electrochemical fixation of CO2 to imines using different metal cathodes | |
| KR890009461A (en) | Catalysts used in chemical reactions and preparation methods thereof | |
| GB1387725A (en) | Preparation of a hydroxylammonium salt solution | |
| Slowiński et al. | Electrocatalysis of oxygen reduction by a copper (II) hexaazamacrocyclic complex | |
| GB1505361A (en) | Electrochemical oxidation of cyanides | |
| Nolen | Selectivity enhancement of electroorganic reactions under periodic control: The reduction of nitrobenzene on the rotating disk electrode. | |
| Al-Ajlouni et al. | Electron Transfer. 139. Reductions with Trioxodinitrate,[N2O3] 2 | |
| Gan | AN ECONOMETRIC ANALYSIS OF THE FINANCIAL BALANCE SHEET OF THE INDUSTRIAL AND COMMERCIAL COMPANIES SECTOR IN THE UNITED KINGDOM. | |
| Jordan | Voltammetric studies in organic and organometallic chemistry. | |
| SU469573A1 (en) | Electrolyte for electrochemical marking | |
| Willey | Catalytic reduction of nitric oxide with ammonia on etched metal surfaces. | |
| Kelly | QUANTITATIVE ANALYSIS OF DIMERIZATION REACTIONS, DISPROPORTIONATION REACTIONS AND QUASI-REVERSIBLE ELECTRODE REACTION KINETICS BY VOLTAMMETRY (CHRONOAMPEROMETRY) | |
| Kutner et al. | On the intermediates in electrooxidation of nickel amalgam in aqueous solutions of halogen and pseudohalogen ions | |
| Iwata et al. | THE ACTION MODEL OF TYROSINASE. DIRECT OXIDATION OF 2-ANTHRANOL TO 1, 2-ANTHRAQUINONE SPECIFICALLY CATALYZED BY CUPRIC ION |