Modern electrochemistry: 2B Electrodics in chemistry, engineeering, biology, and environmental science
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| Hauptverfasser: | , , |
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| Format: | Buch |
| Sprache: | English |
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New York, NY [u.a.]
Kluwer Academic / Plenum Publ.
2000
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| Ausgabe: | 2. ed |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XXIII S., S. 1539 - 2053, XXV - XLIV Ill., graph. Darst. |
| ISBN: | 0306463245 0306463253 |
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| 245 | 1 | 0 | |a Modern electrochemistry |n 2B |p Electrodics in chemistry, engineeering, biology, and environmental science |c John O'M. Bockris and Amulya K. N. Reddy |
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| 264 | 1 | |a New York, NY [u.a.] |b Kluwer Academic / Plenum Publ. |c 2000 | |
| 300 | |a XXIII S., S. 1539 - 2053, XXV - XLIV |b Ill., graph. Darst. | ||
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| 700 | 1 | |a Reddy, Amulya K. |e Verfasser |4 aut | |
| 700 | 1 | |a Gamboa-Aldeco, Maria |e Verfasser |4 aut | |
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Datensatz im Suchindex
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| adam_text | VOLUME 2B MODERN ELECTROCHEMISTRY SECOND EDITION ELECTRODICS IN
CHEMISTRY, ENGINEERING, BIOLOGY, AND ENVIRONMENTAL SCIENCE JOHN O M
BOCKRIS MOLECULAR GREEN TECHNOLOGY COLLEGE STATION, TEXAS AND AMULYA K.
N. REDDY PRESIDENT INTERNATIONAL ENERGY INITIATIVE BANGALORE, INDIA
KLUWER ACADEMIC/PLENUM PUBLISHERS NEW YORK, BOSTON, DORDRECHT, LONDON,
MOSCOW CONTENTS CHAPTER 10 PHOTOELECTROCHEMISTRY 10.1 INTRODUCTION 1539
10.2. MORE ON BAND BENDING AT THE SEMICONDUCTOR/SOLUTION INTERFACE .
1540 10.2.1. INTRODUCTION 1540 10.2.2. WHY THE POTENTIAL DIFFERENCE IN A
SEMICONDUCTOR WITH NO SURFACE STATES IS LARGELY INSIDE THE SOLID PHASE
1541 10.2.3. BENDING THE BANDS 1542 10.3. PHOTOEXCITATION OF ELECTRONS
BY ABSORPTION OF LIGHT 1544 10.3.1. P-TYPEPHOTOCATHODES 1544 10.3.2.
THEN-TYPE PHOTOANODE 1546 10.3.3. THE RATE-DETERMINING STEP IN
PHOTOELECTROCHEMICAL REACTIONS 1547 10.3.4. THE SCHOTTKY BARRIER 1549
10.3.5. A THEORY OF THE PHOTOCURRENT FOR SEMICONDUCTORS OF LOW SURFACE
STATE CONCENTRATION NEAR THE LIMITING CURRENT 1549 10.4. WHAT HAS BEEN
LEARNED ABOUT PHOTOELECTROCHEMISTRY SO FAR? . . 1551 10.5. SURFACE
EFFECTS IN PHOTOELECTROCHEMISTRY 1556 10.5.1. INTRODUCTION 1556 10.5.2.
SURFACE STATES 1559 10.5.2.1. INTRODUCTION 1559 10.5.3. DETERMINATION OF
SURFACE STATES 1560 10.5.4. WHAT CAUSES A SURFACE STATE? 1562 10.5.5.
THE EFFECT OF SURFACE STATES ON THE DISTRIBUTION OF POTENTIAL IN THE
SEMICONDUCTOR INTERFACE 1564 XIII XIV CONTENTS 10.5.6. KINETIC
PHOTOELECTROCHEMICAL PROCESSES AT HIGH SURFACE STATE SEMICONDUCTORS 1567
10.5.7. LOOKING BACK AND LOOKING FORWARD AT PHOTOELECTROCHEMISTRY 1570
10.6. PHOTOELECTROCATALYSIS 1571 10.7. THE PHOTOELECTROCHEMICAL
SPLITTING OF WATER 1574 10.7.1. THE NEED FOR PHOTOELECTROCATALYSIS 1574
10.7.2. COULD CHEAP TI0 2 BE USED IN THE ECONOMIC PHOTOELECTROLYSIS
OFWATER? 1576 10.8. THE PHOTOELECTROCHEMICAL REDUCTION OF CO2 1579
10.8.1. PHOTOELECTROCHEMICAL WASTE REMOVAL 1580 10.9. RETROSPECT AND
PROSPECT FOR PHOTOELECTROCHEMISTRY, PARTICULARLY IN RESPECT TO THE
SPLITTING OF WATER 1581 FURTHER READING 1582 APPENDIX 1. A BRIEF NOTE ON
ELECTROLUMINESCENCE AND ELECTROREFLECTANCE 1585 APPENDIX 2.
ELECTROCHEMICAL PREPARATION OF SEMICONDUCTOR ELECTRODES . . 1585
APPENDIX 3. HIGH-RESOLUTION TECHNIQUES IN THE STUDY OF SEMICONDUCTOR
SURFACES 1586 CHAPTER 11 SELECTED ASPECTS OF ORGANOELECTROCHEMISTRY
11.1. INTRODUCTION . . . 1599 11.1.1. THE MODERNIZATION OF AN ANCIENT
SUBJECT 1599 11.1.2. THE PLUS AND MINUS OF USING AN ELECTROCHEMICAL
ROUTE FOR SYNTHESIS . . 1600 11.2. DETERMINING THE MECHANISMS OF
ORGANOELECTROCHEMICAL REACTIONS 1602 11.2.1. INTRODUCTION 1602 11.2.2.
ANODIC OXIDATION OF SS-CYANOETHYL ETHERS 1603 11.2.3. THE MANUFACTURE OF
NYLON 1605 11.3. CHIRAL ELECTRODES 1608 11.3.1. OPTICAL ACTIVITY AT
ELECTRODES 1608 11.4. ELECTRO-ORGANIC SYNTHESES 1610 11.4.1. CELL DESIGN
1610 11.4.2. NEW ELECTRODE MATERIALS 1611 11.4.3. A MOVING FRONTIER 1612
11.5. ELECTRONICALLY CONDUCTING ORGANIC POLYMERS 1612 11.5.1.
INTRODUCTION 1612 CONTENTS XV 11.5.2. IONICALLY DOPED ORGANIC POLYMERS
AS SEMICONDUCTORS 1614 11.5.3. GENERAL PROPERTIES OF ELECTRONICALLY
CONDUCTING ORGANIC POLYMERS 1614 11.5.3.1. STATUS OF POLYPYRROLE 1614
11.5.3.2. USE OF POLYPYRROLE IN ELECTROCATALYSIS 1615 11.5.3.3. THE
OXIDATION AND POLYMERIZATION OF THE MONOMER 1616 11.5.4. THE STRUCTURE
OF THE POLYPYRROLE/SOLUTION INTERFACE 1616 11.5.4.1. RELEVANT FACTS 1616
11.5.3.2. STRUCTURE 1618 11.5.3.3. PRACTICAL ELECTROCHEMICAL USES OF
ELECTRONICALLY CONDUCTING POLYMERS (SEE ALSO SECTION 4.9.2) 1619
11.5.3.4. ELECTRONICALLY CONDUCTING ORGANIC COMPOUNDS: PROBLEMS AND THE
FUTURE 1623 11.6. DESIGNER ELECTRODES 1626 11.6.1. INTRODUCTION 1626
11.6.2. FORMATION OF MONOLAYERS OF ORGANIC MOLECULES ON ELECTRODES 1628
11.6.3. APPARENT CATALYSIS BY REDOX COUPLES INTRODUCED INTO POLYMERS
ATTACHED TO ELECTRODES 1629 11.6.4. CONCLUSION 1631 FURTHER READING 1631
CHAPTER 12 ELECTROCHEMISTRY IN MATERIALS SCIENCE 12.1. CHARGE TRANSFER,
SURFACE, AND CIVILIZATION 1637 12.1.1. INTRODUCTION 1637 12.1.2. A
CORRODING METAL IS ANALOGOUS TO A SHORT-CIRCUITED ENERGY-PRODUCING CELL
1638 12.1.3. MECHANISM OF THE CORROSION OF ULTRAPURE METALS 1642 12.1.4.
WHAT IS THE CATHODIC REACTION IN CORROSION? 1645 12.1.5. THERMODYNAMICS
AND THE STABILITY OF METALS 1646 12.1.6. POTENTIAL-PH (OR POURBAIX)
DIAGRAMS: USES AND ABUSES 1649 12.1.7. THE CORROSION CURRENT AND THE
CORROSION POTENTIAL 1652 12.1.8. THE BASIC ELECTRODICS OF CORROSION IN
THE ABSENCE OF OXIDE FILMS . . . . 1655 12.1.9. AN UNDERSTANDING OF
CORROSION IN TERMS OF EVANS DIAGRAMS 1659 12.1.10. HOW CORROSION RATES
ARE MEASURED 1661 12.1.10.1. METHOD 1: THE WEIGHT-LOSS METHOD 1661
12.1.10.2. METHOD 2: ELECTROCHEMICAL APPROACH 1662 12.1.11. IMPEDANCE
BRIDGE VERSION OF THE STERN-GEARY APPROACH 1666 12.1.12. OTHER METHODS
1666 12.1.13. THE MECHANISMS OF THE CORROSION REACTIONS INVOLVING THE
DISSOLUTION OF IRON 1666 12.1.14. SOMETHING ABOUT THE MECHANISM OF THE
ANODIC DISSOLUTION OF IRON . . . 1667 XVI CONTENTS 12.1.15. THE
MECHANISM OF HYDROGEN EVOLUTION (HER) ON IRON (A CATHODIC PARTNER
REACTION IN CORROSION OFTEN MET IN ACID SOLUTION) 1670 12.1.16. THE
MECHANISM OF OXYGEN REDUCTION ON IRON 1672 12.1.17. WHERE WE ARE NOW:
LOOKING BACK AT THE BEGINNING 1673 12.1.18. SOME COMMON EXAMPLES OF
CORROSION 1674 FURTHER READING 1679 12.2. INHIBITING CORROSION 1681
12.2.1. INTRODUCTION 1681 12.2.2. CATHODIC AND ANODIC PROTECTION 1681
12.2.2.1. CORROSION INHIBITION BY THE ADDITION OF SUBSTANCES TO THE
ELECTROLYTIC ENVIRONMENT OF A CORRODING METAL 1682 12.2.2.2. CORROSION
PREVENTION BY CHARGING THE CORRODING METAL WITH ELECTRONS FROM AN
EXTERNAL SOURCE 1684 12.2.3. ANODIC PROTECTION 1688 12.2.4. ORGANIC
INHIBITION: THE FULLER STORY 1689 12.2.5. RELATIONS BETWEEN THE
STRUCTURE OF THE ORGANIC MOLECULE AND ITS ABILITY TO INHIBIT CORROSION
1693 12.2.6. TOWARD A DESIGNER INHIBITOR 1695 12.2.7. POLYMER FILMS AS
AN ASPECT OF CORROSION INHIBITION 1699 12.2.8. NATURE OF THE METAL
SURFACE IN CORROSION INHIBITION 1700 12.2.9. GREEN INHIBITORS 1703
12.2.10. LOOKING BACK ON SOME METHODS BY WHICH WE ARE ABLE TO INHIBIT
CORROSION 1705 FURTHER READING 1708 12.3. THE PROTECTION OF ALUMINUM BY
TRANSITION METAL ADDITIONS . . . . 1709 12.3.1. INTRODUCTION 1709
12.3.2. SOME FACTS RELEVANT TO THE TRANSITION METAL EFFECT ON INHIBITING
AL CORROSION 1710 12.3.3. THE MODEL BY WHICH TINY CONCENTRATIONS OF
TRANSITION METAL IONS RETARD CORROSION OF AL 1715 12.4. PASSIVATION 1719
12.4.1. INTRODUCTION 1719 12.4.2. SOME DEFINITIONS 1721 12.4.3. THE
NATURE OF THE PASSIVE LAYER 1721 12.4.4. STRUCTURE OF THE PASSIVE FILM
1726 12.4.5. DEPASSIVATION 1726 12.4.6. EFFECTS OF MARINE ORGANISMS ON
PASSIVE LAYERS 1727 12.5. LOCALIZED CORROSION 1728 12.5.1. INTRODUCTION
1728 12.5.2. THE INITIATION MECHANISMS 1729 12.5.2.1. FORMING A PIT OR
CREVICE 1729 12.5.2.2. A CLAMP ON A PLAIN PIECE OF METAL 1729 12.5.2.3.
PITS IN STAINLESS STEEL 1730 CONTENTS XVII 12.5.3. EVENTS IN PITS 1731
12.5.4. MODELING 1731 FURTHER READING 1733 12.6. ELECTROCHEMICAL ASPECTS
OF THE EFFECT OF HYDROGEN ON METAL . . . 1734 12.6.1. HYDROGEN DIFFUSION
INTO A METAL 1734 12.6.2. THE PREFERENTIAL DIFFUSION OF ABSORBED
HYDROGEN TO REGIONS OF STRESS IN A METAL 1736 12.6.3. HYDROGEN CAN CRACK
OPEN A METAL SURFACE 1739 12.6.4. SURFACE INSTABILITY AND THE INTERNAL
DECAY OF METALS: STRESS-CORROSION CRACKING 1742 12.6.5. PRACTICAL
CONSEQUENCES OF STRESS-CORROSION CRACKING 1747 12.6.6. SURFACE
INSTABILITY AND INTERNAL DECAY OF METALS: HYDROGEN EMBRITTLEMENT 1747
12.7. WHAT IS THE DIRECT EXPERIMENTAL EVIDENCE FOR VERY HIGH PRESSURES
IN VOIDS IN METALS? 1754 12.7.1. INTRODUCTION 1754 12.7.2. A PARTIAL
EXPERIMENTAL VERIFICATION OF HIGH PRESSURES IN METAL VOIDS . . 1755
12.7.3. INDIRECT MEASUREMENT OF HIGH PRESSURES IN VOIDS 1757 12.7.4.
DAMAGE CAUSED INTERNALLY IN METALS BY THE PRESENCE OF H (AND H 2 ) AT
VARYING OVERPOTENTIALS 1759 FURTHER READING 1761 12.8. FATIGUE 1762
12.9. THE PREFERENTIAL FLOTATION OF MINERALS: AN APPLICATION OF THE
MIXED POTENTIAL CONCEPT 1763 12.9.1. DESCRIPTION 1763 12.10. AT THE
CUTTING EDGE OF CORROSION RESEARCH: THE USE OF STM AND ATM 1766 12.10.1.
APPLICATION 1766 12.11. A LASER-BASED TECHNIQUE FOR THE QUANTITATIVE
MEASUREMENT OF H IN LOCAL AREAS 1769 12.11.1. DESCRIPTION 1769 12.12.
OTHER METHODS OF EXAMINING LOCAL CORROSION 1771 12.12.1. DESCRIPTION
1771 FURTHER READING 1772 12.13. A BIRD S EYE VIEW OF CORROSION 1772
12.13.1. DESCRIPTION 1772 FURTHER READING 1775 XVIII CONTENTS CHAPTER 13
CONVERSION AND STORAGE OF ELECTROCHEMICAL ENERGY 13.1. INTRODUCTION 1789
13.2. A BRIEF HISTORY OF FUEL CELLS 1790 13.3. EFFICIENCY 1794 13.3.1.
MAXIMUM INTRINSIC EFFICIENCY IN ELECTROCHEMICAL CONVERSION OF THE ENERGY
OF A CHEMICAL REACTION TO ELECTRIC ENERGY 1794 13.3.2. ACTUAL EFFICIENCY
OF AN ELECTROCHEMICAL ENERGY CONVERTER 1798 13.3.3. PHYSICAL
INTERPRETATION OF THE ABSENCE OF THE CARNOT EFFICIENCY FACTOR IN
ELECTROCHEMICAL ENERGY CONVERSION 1799 13.3.4. COLD COMBUSTION 1801
13.4. KINETICS OF FUEL CELL REACTIONS 1802 13.4.1. MAKING V NEAR V E IS
THE CENTRAL PROBLEM OF ELECTROCHEMICAL ENERGY CONVERSION 1802 13.4.2.
ELECTROCHEMICAL PARAMETEIS THAT MUST BE OPTIMIZED FOR GOOD ENERGY
CONVERSION 1806 13.4.3. THE POWER OUTPUT OF AN ELECTROCHEMICAL ENERGY
CONVERTER 1808 13.4.4. THE ELECTROCHEMICAL ENGINE 1810 13.4.5.
ELECTRODES BURNING OXYGEN FROM AIR 1811 13.5 POROUS ELECTRODE 1811
13.5.1. SPECIAL CONFIGURATIONS OF ELECTRODES IN ELECTROCHEMICAL ENERGY
CONVERTERS 1811 13.6. TYPES OF FUEL CELLS 1814 13.6.1. WHAT IS KNOWN SO
FAR ABOUT FUEL CELLS*ELECTROCHEMICAL ENERGY CONVERTERS 1814 13.6.2.
GENERAL ASPECTS OF THE PRACTICAL FUEL CELLS 1815 13.6.2.1. THE CELLS
1815 13.6.2.2. EFFICIENCY OF ENERGY CONVERSION AND THE TAFEL EQUATION .
. . 1816 13.6.3. ALKALINE FUEL CELLS 1817 13.6.4. PHOSPHORIC ACID FUEL
CELLS 1818 13.6.5. HIGH-TEMPERATURE FUEL CELLS 1821 13.6.6. SOLID
POLYMER ELECTROLYTE FUEL CELL 1824 13.7. ELECTROCHEMICAL ENGINES FOR
VEHICULAR TRANSPORTATION 1826 13.7.1. THE ELECTROCHEMICAL ENGINE 1826
13.7.2. THE RE-FORMER 1827 13.7.3. DEVELOPMENT OF THE PROTON-EXCHANGE
MEMBRANE FUEL CELL FOR USE IN AUTOMOTIVE TRANSPORTATION 1830 13.7.3.1.
GENERAL 1830 CONTENTS XIX 13.7.3.2. FUNDAMENTAL RESEARCH THAT UNDERLAY
DEVELOPMENT OF THIS CELL.. 1830 13.7.4. THE ELECTRIC CAR SCHEMATIC 1835
13.7.5. A CHORD OF CONTINUITY 1835 13.8. HYBRIDS INVOLVING FUEL CELLS,
BATTERIES, ETC 1837 13.9. DIRECT MEOH FUEL CELLS 1838 13.10. GENERAL
DEVELOPMENT OF A FUEL CELL-BASED TECHNOLOGY 1839 13.10.1. FUEL CELL
POWER PLANTS 1839 13.10.2. HOUSEHOLD ENERGY 1840 13.10.3. VEHICULAR
TRANSPORTATION 1840 13.10.4. RAILWAYS 1840 13.10.5. SEAGOING VESSELS
1841 13.10.6. AIRCRAFT 1841 13.10.7. INDUSTRY 1841 13.10.8. SPACE 1842
13.11. THE SECOND FUEL CELL PRINCIPLE 1842 13.12. MIDWAY: THE NEED TO
REDUCE MASSIVE C0 2 EMISSIONS FROM MAN-MADE SOURCES 1845 13.13. FUEL
CELLS: THE SUMMARY 1846 FURTHER READING 1849 13.14. ELECTROCHEMICAL
ENERGY STORAGE 1851 13.14.1. INTRODUCTION 1851 13.15. A FEW HIGHLIGHTS
IN THE DEVELOPMENT OF BATTERIES 1854 13.15.1. HISTORY 1854 13.16.
PROPERTIES OF ELECTROCHEMICAL ENERGY STORERS 1855 13.16.1. THE DISCHARGE
PLOT 1855 13.16.2. THE RAGONE PLOT 1856 13.16.3. MEASURES OF BATTERY
PERFORMANCE 1857 13.16.4. CHARGING AND DISCHARGING A BATTERY 1859 13.17.
SOME INDIVIDUAL BATTERIES 1859 13.17.1. INTRODUCTION 1859 13.17.2.
CLASSICAL BATTERIES 1860 13.17.2.1. LEAD-ACID 1860 13.17.2.2.
NICKEL-CADMIUM 1861 13.17.2.3. ZINC-MANGANESE DIOXIDE 1862 13.17.3.
MODERN BATTERIES 1870 13.17.3.1. ZINC-AIR 1870 13.17.3.2. NICKEL-METAL
HYDRIDE 1872 13.17.3.3. LI 1874 13.17.4. SOME BATTERIES FOR SPECIAL
PURPOSES 1877 XX CONTENTS 13.18. THE VIEW AHEAD WITH BATTERIES 1880
13.18.1. GENERAL 1880 13.19. ELECTROCHEMICAL CAPACITORS AS ENERGY
STORERS 1881 13.19.1. INTRODUCTION 1881 13.19.2. CAN THE ENERGY STORAGE
POSSIBILITIES WITH ELECTROCHEMICAL CONDENSERS BE GREATLY INCREASED? 1884
13.19.3. PROJECTED USES OF ELECTROCHEMICAL CAPACITORS 1885 13.20.
BATTERIES: AN OVERVIEW 1886 FURTHER READING 1888 CHAPTER 14
BIOELECTROCHEMISTRY 14.1. BIOELECTRODICS 1903 14.1.1. INTRODUCTION 1903
14.1.2. USEFUL PRELIMINARIES 1904 14.1.2.1. SIZE 1904 14.1.3. WHY SHOULD
ELECTROCHEMISTS BE INTERESTED IN AMINO ACIDS, PROTEINS, AND DNA? 1907
14.1.4. CELLS, MEMBRANES, AND MITOCHONDRIA 1908 14.2. MEMBRANE
POTENTIALS 1910 14.2.1. PRELIMINARY 1910 14.2.2. SIMPLISTIC THEORIES OF
MEMBRANE POTENTIALS 1914 14.2.3. MODERN APPROACHES TO THE THEORY OF
MEMBRANE POTENTIALS 1915 14.3. ELECTRICAL CONDUCTION IN BIOLOGICAL
ORGANISMS 1918 14.3.1. ELECTRONIC 1918 14.3.2. PROTONIC 1921 14.4. THE
ELECTROCHEMICAL MECHANISMS OF THE NERVOUS SYSTEM: AN UNFINISHED SECTION
1922 14.4.1. GENERAL 1922 14.4.2. FACTS 1924 14.4.3. THE RISE AND FALL
OF THE THEORY OF THE SPIKE POTENTIAL 1927 14.5. INTERFACIAL ELECTRON
TRANSFER IN BIOLOGICAL SYSTEMS 1933 14.5.1. INTRODUCTION 1933 14.5.2.
ADSORPTION OF PROTEINS ONTO METALS FROM SOLUTION 1933 14.5.3. ELECTRON
TRANSFER FROM MODIFIED METALS TO DISSOLVED PROTEIN IN SOLUTION 1937
14.5.4. ELECTRON TRANSFER FROM BIOMATERIALS TO SIMPLE REDOX IONS IN
SOLUTION . . . 1942 CONTENTS XXI 14.5.5. THEORETICAL ASPECTS OF ELECTRON
TRANSFER FROM SOLID PROTEINS TO IONS IN SOLUTION 1944 14.5.6. CONDUCTION
AND ELECTRON TRANSFER IN BIOLOGICAL SYSTEMS: RETROSPECT AND PROSPECT
1944 FURTHER READING 1948 14.6. ELECTROCHEMICAL COMMUNICATION IN
BIOLOGICAL ORGANISMS 1950 14.6.1. INTRODUCTION 1950 14.6.2. CHEMICAL
SIGNALING 1953 14.6.3. ELECTRICAL SIGNALING 1954 14.6.3.1. INTRODUCTION
1954 14.6.3.2. SENSITIVITY OF BIOLOGICAL ORGANISMS TO MINUTE ELECTRIC
FIELD STRENGTHS 1955 14.6.3.3. SIGNALING 1955 14.6.3.4. CARCINOGENESIS
1955 14.7. ENZYMES AS ELECTRODES 1957 14.7.1. PRELIMINARY 1957 14.7.2.
WHAT ARE ENZYMES? 1960 14.7.3. ELECTRODES CARRYING ENZYMES 1960 14.7.4.
THE ELECTROCHEMICAL ENZYME-CATALYZED OXIDATION OF STYRENE 1963 14.8.
METABOLISM 1964 14.8.1. AN ABNORMALLY EFFICIENT PROCESS OF ENERGY
CONVERSION 1964 14.8.2. WILLIAMS MODEL 1965 14.8.3. DEVELOPMENT OF THE
FUEL CELL MODEL IN BIOLOGICAL ENERGY CONVERSION . . 1967 14.8.4.
DISTRIBUTION AND STORAGE 1968 14.9. ELECTROCHEMICAL ASPECTS OF SOME
BIOPROCESSES 1969 14.9.1. INTRODUCTION 1969 14.9.2. SUPEROXIDE AS A
PRETOXIN 1970 14.9.3. CARDIOVASCULAR DISEASES 1970 14.9.4. THE EFFECTS
OF ELECTROMAGNETIC RADIATION ON BIOLOGICAL ORGANISMS . . . 1971 14.9.5.
MICROBIAL EFFECTS 1974 14.9.5.1. BACTERICIDAL 1974 14.9.5.2. FUEL-CELL
RELATED 1975 14.9.6. ELECTROCHEMICAL GROWTH OF BONES AND RELATED
PHENOMENA 1975 14.9.7. ELECTROANALGESIA 1976 14.9.8. OTHER EFFECTS 1976
14.10. MONITORING NEUROTRANSMITTERS IN THE INTACT BRAIN AND OTHER
SINGLE- CELL STUDIES 1976 14.10.1. INTRODUCTION 1976 14.11. SUMMARY:
MEDICAL EFFECTS, BRAIN, AND SINGLE-CELL EXPERIMENTS . 1979 FURTHER
READING 1980 XXII CONTENTS CHAPTER 15 ENVIRONMENTALLY ORIENTED
ELECTROCHEMISTRY 15.1. THE ENVIRONMENTAL SITUATION 1989 15.2. THE
ELECTROCHEMICAL ADVANTAGE 1992 15.3. GLOBAL WARMING 1993 15.3.1. FACTS
1993 15.3.2. THE SOLAR-HYDROGEN SOLUTION 1996 15.3.2.1. THE IDEAS 1996
15.3.3. THE ELECTROCHEMISTRY OF WATER SPLITTING 1999 15.3.4. THE
ELECTROLYSIS OF SEA WATER 2002 15.3.5. SUPERELECTROLYZERS 2003 15.3.6.
PHOTOELECTROCHEMICAL SPLITTING OF WATER 2004 15.4. LARGE-SCALE
SOLAR-HYDROGEN PRODUCTION 2004 15.4.1. SOLAR-HYDROGEN FARMS 2004 15.5.
THE ELECTROCHEMICAL TRANSPORT SYSTEM 2008 15.5.1. INTRODUCTION 2008
15.5.2. ELECTROCHEMICALLY POWERED CARS 2010 15.5.3. THE FUEL CELL 2011
15.6. THE FIXING OF C0 2 2012 15.6.1. INTRODUCTION 2012 15.6.2. THE
POSSIBLE REDUCTION PRODUCT 2013 15.6.3. REDUCTION OF C0 2 ON METALS 2013
15.6.4. THE MECHANISM OF C0 2 REDUCTION 2015 15.6.5.
PHOTOELECTROCHEMICAL REDUCTION OF C0 2 2017 15.6.6. CONVERSION OF AN
ORGANIC COMPOUND IN PHOTOELECTROCHEMICAL FIXING . . 2019 15.6.7.
PROSPECTS IN THE ELECTROCHEMICAL REDUCTION OF C0 2 2020 15.7. REMOVAL OF
WASTES 2022 15.7.1. INTRODUCTION 2022 15.7.2. WASTE WATER 2023 15.7.3.
SULFURDIOXIDE 2023 15.7.4. REMOVAL OF METALS: AQUIFERS 2024 15.7.5. THE
DESTRUCTION OF NITRATES 2025 15.7.6. ELECTROCHEMICAL TREATMENT OF
LOW-LEVEL, NUCLEAR WASTES 2026 15.7.7. MEDIATOR-AIDED DESTRUCTION OF
ORGANIC WASTES (PARTICULARLY TOXIC, ORGANIC WASTE) 2028 15.7.8.
BACTERICIDAL EFFECTS 2031 15.7.9. THE SPECIAL PROBLEM OF H 2 S 2031
15.7.9.1. INTRODUCTION 2031 15.7.9.2. ELECTROCHEMICAL DECOMPOSITION OF H
2 S 2031 CONTENTS XXIII 15.7.9.3. PHOTOELECTROCHEMICAL DECOMPOSITION OF
H 2 S 2033 15.7.10. ELECTROCHEMICAL SEWAGE DISPOSAL 2033 15.7.11.
ELECTROCHEMICAL DECONTAMINATION OF SOIL 2035 15.7.11.1. INTRODUCTION
2035 15.7.11.2. THE MECHANISM 2035 15.7.11.3. EXPERIMENTAL WORK 2036
15.7.11.4. SUMMARY ON SOIL REMEDIATION 2037 15.8. RETROSPECT AND
PROSPECT 2038 15.9. A PARTING WORD 2039 FURTHER READING 2042 INDEX XXV
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| any_adam_object | 1 |
| author | Bockris, J. O'M. 1923-2013 Reddy, Amulya K. Gamboa-Aldeco, Maria |
| author_GND | (DE-588)122813529 |
| author_facet | Bockris, J. O'M. 1923-2013 Reddy, Amulya K. Gamboa-Aldeco, Maria |
| author_role | aut aut aut |
| author_sort | Bockris, J. O'M. 1923-2013 |
| author_variant | j o b jo job a k r ak akr m g a mga |
| building | Verbundindex |
| bvnumber | BV024162203 |
| ctrlnum | (OCoLC)916035804 (DE-599)GBV325111286 |
| edition | 2. ed |
| format | Book |
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| id | DE-604.BV024162203 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T21:57:02Z |
| institution | BVB |
| isbn | 0306463245 0306463253 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-018285716 |
| oclc_num | 916035804 |
| open_access_boolean | |
| owner | DE-83 DE-11 |
| owner_facet | DE-83 DE-11 |
| physical | XXIII S., S. 1539 - 2053, XXV - XLIV Ill., graph. Darst. |
| publishDate | 2000 |
| publishDateSearch | 2000 |
| publishDateSort | 2000 |
| publisher | Kluwer Academic / Plenum Publ. |
| record_format | marc |
| spelling | Bockris, J. O'M. 1923-2013 Verfasser (DE-588)122813529 aut Modern electrochemistry 2B Electrodics in chemistry, engineeering, biology, and environmental science John O'M. Bockris and Amulya K. N. Reddy 2. ed New York, NY [u.a.] Kluwer Academic / Plenum Publ. 2000 XXIII S., S. 1539 - 2053, XXV - XLIV Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Reddy, Amulya K. Verfasser aut Gamboa-Aldeco, Maria Verfasser aut (DE-604)BV024132087 2,B GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018285716&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Bockris, J. O'M. 1923-2013 Reddy, Amulya K. Gamboa-Aldeco, Maria Modern electrochemistry |
| title | Modern electrochemistry |
| title_auth | Modern electrochemistry |
| title_exact_search | Modern electrochemistry |
| title_full | Modern electrochemistry 2B Electrodics in chemistry, engineeering, biology, and environmental science John O'M. Bockris and Amulya K. N. Reddy |
| title_fullStr | Modern electrochemistry 2B Electrodics in chemistry, engineeering, biology, and environmental science John O'M. Bockris and Amulya K. N. Reddy |
| title_full_unstemmed | Modern electrochemistry 2B Electrodics in chemistry, engineeering, biology, and environmental science John O'M. Bockris and Amulya K. N. Reddy |
| title_short | Modern electrochemistry |
| title_sort | modern electrochemistry electrodics in chemistry engineeering biology and environmental science |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018285716&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV024132087 |
| work_keys_str_mv | AT bockrisjom modernelectrochemistry2b AT reddyamulyak modernelectrochemistry2b AT gamboaaldecomaria modernelectrochemistry2b |