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Electrochemical Synthesis of Inorganic Compounds

A Bibliography

  • Zoltán Nagy

Table of contents

  1. Front Matter
    Pages i-xiii
  2. Zoltán Nagy
    Pages 1-4
  3. Zoltán Nagy
    Pages 5-10
  4. Zoltán Nagy
    Pages 11-11
  5. Zoltán Nagy
    Pages 12-16
  6. Zoltán Nagy
    Pages 17-18
  7. Zoltán Nagy
    Pages 19-30
  8. Zoltán Nagy
    Pages 31-33
  9. Zoltán Nagy
    Pages 34-34
  10. Zoltán Nagy
    Pages 35-36
  11. Zoltán Nagy
    Pages 37-37
  12. Zoltán Nagy
    Pages 38-41
  13. Zoltán Nagy
    Pages 42-55
  14. Zoltán Nagy
    Pages 56-59
  15. Zoltán Nagy
    Pages 60-61
  16. Zoltán Nagy
    Pages 62-65
  17. Zoltán Nagy
    Pages 66-71
  18. Zoltán Nagy
    Pages 72-75
  19. Zoltán Nagy
    Pages 76-94
  20. Zoltán Nagy
    Pages 95-96
  21. Zoltán Nagy
    Pages 97-107
  22. Zoltán Nagy
    Pages 108-124
  23. Zoltán Nagy
    Pages 125-125
  24. Zoltán Nagy
    Pages 126-126
  25. Zoltán Nagy
    Pages 127-138
  26. Zoltán Nagy
    Pages 139-139
  27. Zoltán Nagy
    Pages 140-140
  28. Zoltán Nagy
    Pages 141-142
  29. Zoltán Nagy
    Pages 143-182
  30. Zoltán Nagy
    Pages 183-183
  31. Zoltán Nagy
    Pages 184-186
  32. Zoltán Nagy
    Pages 187-191
  33. Zoltán Nagy
    Pages 192-192
  34. Zoltán Nagy
    Pages 193-193
  35. Zoltán Nagy
    Pages 194-216
  36. Zoltán Nagy
    Pages 217-217
  37. Zoltán Nagy
    Pages 218-222
  38. Zoltán Nagy
    Pages 223-227
  39. Zoltán Nagy
    Pages 228-258
  40. Zoltán Nagy
    Pages 259-265
  41. Zoltán Nagy
    Pages 266-295
  42. Zoltán Nagy
    Pages 296-318
  43. Zoltán Nagy
    Pages 319-320
  44. Zoltán Nagy
    Pages 321-325
  45. Zoltán Nagy
    Pages 326-326
  46. Zoltán Nagy
    Pages 327-344
  47. Zoltán Nagy
    Pages 345-345
  48. Zoltán Nagy
    Pages 346-356
  49. Zoltán Nagy
    Pages 357-357
  50. Zoltán Nagy
    Pages 358-382

About this book

Introduction

Electrochemical synthesis of inorganic compounds is a relatively unknown field. The successful, large industrial processes, such as chlorine-caustic production, are well known, but the large number of other compounds that have been synthesized electrochemically are much less appreciated, even by electrochemists and inorganic chemists. The last comprehensive book on this subject was published in the 1930's and no modern review or summary of the whole field is in existence. But the field is in no way dormant, as attested by the large number of publications, undiminished throughout the years, describing new syntheses and improvements of old ones. Indeed, it can be expected that practical applications of electrochemical inor­ ganic syntheses will increase in the future as an increasing portion of our energy will be available in electrical form. Electrochemical processes have important advantages over chemical routes: often the selectivity of the reaction can be better controlled through the use of potential control at the electrode, and the creation of environmen­ tally harmful waste material can be avoided more easily since one is using the purest reagent - the electron. In addition to development of new synthetic routes, many old ones, which were found to be un­ economical in the past, are worth reexamining in light of the recent considerable advances in cell design principles, materials of construc­ tion, and electrode and separator materials, together with our im­ proved understanding of electrode reactions and electrocatalysis. It is in the hope of accelerating this process that this bibliography is published.

Keywords

Actinium Cadmium Chemical synthesis Europium Ion catalysis chromium cobalt energy erbium gold hydrogen platinum potassium reactions

Authors and affiliations

  • Zoltán Nagy
    • 1
  1. 1.Argonne National LaboratoryArgonneUSA

Bibliographic information