New Carbon Based Materials for Electrochemical Energy Storage Systems: Batteries, Supercapacitors and Fuel Cells [E-Book] / edited by Igor V. Barsukov, Christopher S. Johnson, Joseph E. Doninger, Vyacheslav Z. Barsukov.
Barsukov, Igor V., (editor)
Barsukov, Vyacheslav Z., (editor) / Doninger, Joseph E., (editor) / Johnson, Christopher S., (editor)
1st edition 2006.
Dordrecht : Springer, 2006
XXIV, 523 pages (online resource)
englisch
9781402048128
10.1007/1-4020-4812-2
NATO Science Series II: Mathematics, Physics and Chemistry, Mathematics, Physics and Chemistry ; 229
Full Text
Table of Contents:
  • NEW CARBON MATERIALS FOR SUPERCAPACITORS
  • NOVEL CARBONACEOUS MATERIALS FOR APPLICATION IN THE ELECTROCHEMICAL SUPERCAPACITORS
  • EFFECT OF CARBONACEOUS MATERIALS ON PERFORMANCE OF CARBON-CARBON AND CARBON-Ni OXIDE TYPES OF ELECTROCHEMICAL CAPACITORS WITH ALKALINE ELECTROLYTE
  • HYBRID SUPERCAPACITORS BASED ON ?-MnO2/CARBON NANOTUBES COMPOSITES
  • DEVELOPMENT OF SUPERCAPACITORS BASED ON CONDUCTING POLYMERS
  • SUPERCAPACITORS: OLD PROBLEMS AND NEW TRENDS
  • MODELING POROSITY DEVELOPMENT DURING KOH ACTIVATION OF COAL AND PITCH-DERIVED CARBONS FOR ELECTROCHEMICAL CAPACITORS
  • GENERAL PROPERTIES OF IONIC LIQUIDS AS ELECTROLYTES FOR CARBON-BASED DOUBLE LAYER CAPACITORS
  • CARBON MATERIALS FOR GAS DIFFUSION ELECTRODES, METAL AIR CELLS AND BATTERIES
  • NEW CONCEPT FOR THE METAL-AIR BATTERIES USING COMPOSITES: CONDUCTING POLYMERS / EXPANDED GRAPHITE AS CATALYSTS
  • MECHANICALLY RECHARGEABLE MAGNESIUM-AIR CELLS WITH NaCl-ELECTROLYTE
  • APPLICATION OF CARBON-BASED MATERIALS IN METAL-AIR BATTERIES: RESEARCH, DEVELOPMENT, COMMERSIALIZATION
  • METAL - AIR BATTERIES WITH CARBONACEOUS AIR ELECTRODES AND NONMETALLIC CATALYSTS
  • CARBON ANODES FOR LITHIUM-ION BATTERIES
  • CARBONACEOUS MATERIALS FOR BATTERIES
  • ANODE-ELECTROLYTE REACTIONS IN Li BATTERIES: THE DIFFERENCES BETWEEN GRAPHITIC AND METALLIC ANODES
  • PERFORMANCE OF NOVEL TYPES OF CARBONACEOUS MATERIALS IN THE ANODES OF CLAiO'S LITHIUM-ION BATTERY SYSTEMS
  • WHY GRAPHITE ELECTRODES FAIL IN PC SOLUTIONS: AN INSIGHT FROM MORPHOLOGICAL STUDIES
  • NEW DEVELOPMENTS IN THE ADVANCED GRAPHITE FOR LITHIUM-ION BATTERIES
  • MECHANISMS OF REVERSIBLE AND IRREVERSIBLE INSERTION IN NANOSTRUCTURED CARBONS USED FOR Li-ION BATTERIES
  • SOME THERMODYNAMICS AND KINETICS ASPECTS OF THE GRAPHITE-LITHIUM NEGATIVE ELECTRODE FOR LITHIUM-ION BATTERIES
  • CHARACTERIZATION OF ANODES BASED ON VARIOUS CARBONACEOUS MATERIALS FOR APPLICATION IN LITHIUM-ION CELLS
  • A CARBON COMPOSITE FOR THE NEGATIVE ELECTRODE OF LI-ION BATTERIES
  • ELECTROCHEMICAL INTERCALATION OF PF¯6 AND BF¯4 INTO SINGLE-WALLED CARBON NANOTUBES
  • SURFACE TREATED NATURAL GRAPHITE AS ANODE MATERIAL FOR HIGH-POWER LI-ION BATTERY APPLICATIONS
  • EMERGING METAL/CARBON COMPOSITE ANODES FOR NEXT GENERATION LITHIUM-ION BATTERIES
  • ON THE THEORETICAL PREREQUISITES FOR APPLICATION OF NOVEL MATERIALS IN PROMISING ENERGY SYSTEMS
  • CAPABILITIES OF THIN TIN FILMS AS NEGATIVE ELECTRODE ACTIVE MATERIALS FOR LITHIUM-ION BATTERIES
  • COMPOSITE ANODE MATERIALS FOR HIGH ENERGY DENSITY LITHIUM-ION BATTERIES
  • ELECTROCHEMICAL ACTIVITY OF CARBONS MODIFIED BY d-METAL COMPLEXES WITH ETHANOLAMINES
  • METAL-GRAPHITE COMPOSITS AS MATERIALS FOR ELECTRODES OF LITHIUM-ION BATTERIES
  • ELECTROCHEMICAL PERFORMANCE OF Ni/Cu-METALLIZED & CARBON-COATED GRAPHITES FOR LITHIUM BATTERIES
  • NEW NANO- THROUGH MACRO-CARBONS FOR ENERGY SYSTEMS: SYNTHESIS, MODELING, CHARACTERIZATION
  • STABILIZATION OF GRAPHITE NITRATE VIA CO-INTERCALATION OF ORGANIC COMPOUNDS
  • ELECTROCHEMICAL STABILITY OF NATURAL, THERMALLY EXFOLEATED AND MODIFIED FORMS OF GRAPHITE TOWARDS ELECTROCHEMICAL OXIDATION
  • LOW TEMPERATURE SYNTHESIS OF GRAPHITE FROM IRON CARBIDE
  • HIGH RESOLUTION TRANSMISSION ELECTRON MICROSCOPY IMAGE ANALYSIS OF DISORDERED CARBONS USED FOR ELECTROCHEMICAL STORAGE OF ENERGY
  • ELECTROLYSIS OF CARBAMIDE-CHLORIDE MELTS AT INERT ELECTRODES
  • GRAPHITE INTERCALATION AS A WAY TO CARBON-CARBON COMPOSITES AND CARBON NANOSCROLLS
  • CARBONS IN THE CATHODES OF LITHIUM-ION BATTERIES; ALTERNATIVE FORMS OF MnO2, CATHODE / CARBON MODELING
  • DIAGNOSTIC EVALUATION OF POWER FADE PHENOMENA AND CALENDAR LIFE REDUCTION IN HIGH-POWER LITHIUM-ION BATTERIES
  • MODELING OF ELECTROCHEMICAL PROCESSES IN THE ELECTRODES BASED ON SOLID ACTIVE REAGENTS AND CONDUCTIVE CARBON ADDITIVES
  • ON THE OPTIMAL DESIGN OF AMORPHOUS MANGANESE OXIDE FOR APPLICATIONS IN POWER SOURCES
  • INVESTIGATION OF CATHODIC MATERIALS BASED ON DIFFERENT TYPES OF MnO2/CARBON
  • INVESTIGATION OF THIN-FILM ELECTRODE MATERIALS AS CATHODIC ACTIVES FOR POWER SOURCES
  • SYNTHESIS OF MIXED OXIDES USING POLYBASIC CARBOXYLIC HYDROXY-AND AMINO-ACID ROUTES: PROBLEMS AND PROSPECTS
  • IMPROVED ELETROCHEMICAL PROPERTIES OF SURFACE-COATED Li(Ni,Co,Mn)O2 CATHODE MATERIAL FOR Li SECONDARY BATTERIES.