Nano-enabled Batteries for Portable and Rechargeable Applications Types, Applications, New Developments, Industry Structure and Global Markets

Table of Contents

INTRODUCTION

• STUDY GOAL AND OBJECTIVES
• REASONS FOR DOING THE STUDY
• CONTRIBUTIONS OF THE STUDY
• SCOPE AND FORMAT
• METHODOLOGY
• INFORMATION SOURCES
• WHOM THE STUDY CATERS TO
• AUTHOR'S CREDENTIALS

EXECUTIVE SUMMARY

• EXECUTIVE SUMMARY (CONTINUED)
• SUMMARY TABLE GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO-ENABLED BATTERIES BY TYPE, 2008 AND 2013 IX
• SUMMARY FIGURE GLOBAL MARKET SIZE FOR NANO-ENABLED BATTERIES BY TYPE, 2008 AND 2013 ($ MILLIONS) IX

INDUSTRY OVERVIEW

• BUSINESS STRATEGY
• COMPETITION
• JOINT VENTURES AND DEVELOPMENT EFFORTS
• EMERGENCE OF CHINA IN NANO-ENEABLED BATTERIES
  • EMERGENCE OF CHINA IN NANO-ENEABLED BATTERIES (CONTINUED)

• TECHNICAL OVERVIEW
  • TYPES OF BATTERIES
    • PRIMARY BATTERIES
    • SECONDARY CELLS/BATTERIES
      • SECONDARY CELLS/BATTERIES (CONTINUED)
      • KEY TERMINOLOGIES RELATED TO BATTERIES
        • TABLE 1 ELECTROCHEMICAL CHARACTERSTICS OF RECHARGEABLE BATTERIES
        • TABLE 2 DEFINITIONS OF KEY TERMINOLOGIES USED IN NANO-ENABLED BATTERIES
        • TABLE 2 DEFINITIONS OF KEY TERMINOLOGIES USED IN NANO-ENABLED BATTERIES (CONTINUED)
  • LITHIUM VERSUS NON-LITHIUM TECHNOLOGIES
    • LITHIUM VERSUS NON-LITHIUM TECHNOLOGIES (CONTINUED)
    • LITHIUM VERSUS NON-LITHIUM TECHNOLOGIES (CONTINUED)
      • TABLE 3 COMPARISON OF RECHARGEABLE BATTERY POWER SOURCE OPTIONS
• DESCRIPTION OF ELECTRODE MATERIAL PROCESSING TECHNOLOGIES
  • TABLE 4 SYNTHESIS PROCESSES USED TO MANUFACTURE NANOSTRUCTURED MATERIALS USED IN ELECTRODES FOR NANO-ENABLED LITHIUM BATTERIES
  • TABLE 4 SYNTHESIS PROCESSES USED TO MANUFACTURE NANOSTRUCTURED MATERIALS USED IN ELECTRODES FOR NANO-ENABLED LITHIUM BATTERIES (CONTINUED)
  • TABLE 4 SYNTHESIS PROCESSES USED TO MANUFACTURE NANOSTRUCTURED MATERIALS USED IN ELECTRODES FOR NANO-ENABLED LITHIUM BATTERIES (CONTINUED)
• RECHARGEABLE LITHIUM BATTERIES TECHNOLOGIES
  • FIGURE 1 SCHEMATIC OF A LITHIUM-ION CELL
• CONVENTIONAL LITHIUM-ION BATTERY USAGE IN TRANSPORT
• MATERIALS FOR LI-ION BATTERIES
• CATHODE MATERIALS
  • TABLE 5 MICRON-SCALE CATHODE ELECTRODE MATERIALS
  • TABLE 6 NANOSCALE CATHODE ELECTRODE LITHIUM IRON PHOSPHATE PROPERTIES WITH DIFFERENT CARBON % DOPING
  • ANODES
  • SEPARATORS
  • ELECTROLYTES
    • TABLE 7 ELECTROLYTES USED IN NANO-ENABLED BATTERIES
  • ORGANIC SOLVENTS
    • TABLE 8 ORGANIC SOLVENTS USED IN NANO-ENABLED BATTERY
  • CELL PACKAGING
  • SAFETY CIRCUITS
  • MODULE AND BATTERY PACK MATERIALS
• ADVANTAGES OF RECHARGEABLE LITHIUM-BASED BATTERIES
• LITHIUM-ION BATTERY SAFETY
• LITHIUM-ION BATTERY SAFETY (CONTINUED)
• HOW CELL TYPES DIFFER
  • FIGURE 2 SCHEMATIC OF A CYLINDRICAL LITHIUM-ION CELL
• FROM CELLS TO MODULES TO BATTERY PACKS
  • FIGURE 3 SCHEMETIC OF A CELL.MODULE, PACK
• NANOMATERIALS IN LI-ION BATTERIES
• NANOSTRUCTURED MATERIALS
• PRESENT STATUS AND FUTURE CHALLENGES
• THE ROLE OF NANOMATERIALS IN RECHARGEABLE BATTERIES
  • THE ROLE OF NANOMATERIALS IN RECHARGEABLE BATTERIES (CONTINUED)
    • FIGURE 4 SCHEMETIC DIAGRAM OF A LITHIUM ION BATTERY SHOWING ION MOVEMENT
    • TABLE 9 MATERIALS USED IN NANOSTRUCTURED ELECTRODES OF RECHARGEABLE BATTERIES AND THEIR ELECTROCHEMICAL PROPERTIES
    • TABLE 9 MATERIALS USED IN NANOSTRUCTURED ELECTRODES OF RECHARGEABLE BATTERIES AND THEIR ELECTROCHEMICAL PROPERTIES (CONTINUED)
    • TABLE 9 MATERIALS USED IN NANOSTRUCTURED ELECTRODES OF RECHARGEABLE BATTERIES AND THEIR ELECTROCHEMICAL PROPERTIES (CONTINUED)
    • TABLE 9 MATERIALS USED IN NANOSTRUCTURED ELECTRODES OF RECHARGEABLE BATTERIES AND THEIR ELECTROCHEMICAL PROPERTIES (CONTINUED)
    • TABLE 10 SUMMARY OF OTHER POTENTIAL MATERIALS FOR NANOSTRUCTURED ELECTRODES USED IN BATTERIES
    • TABLE 10 SUMMARY OF OTHER POTENTIAL MATERIALS FOR NANOSTRUCTURED ELECTRODES USED IN BATTERIES (CONTINUED)
    • TABLE 10 SUMMARY OF OTHER POTENTIAL MATERIALS FOR NANOSTRUCTURED ELECTRODES USED IN BATTERIES (CONTINUED)
  • ELECTRODE MATERIAL STRUCTURE
    • TABLE 11 LAYERED, SPINEL AND OLIVINE STRUCTURE OF POSITIVE ELECTRODE MATERIAL FOR NANO-ENABLED LITHIUM BATTERIES
  • KEY POINTS
• NANOMATERIALS USED FOR NEGATIVE ELECTRON ANODES
• THE ELECTRODE-ELECTROLYTE INTERFACE
• CASE STUDY: CONSTRUCTING A NANO-ENABLED BATTERY
  • TABLE 12 NANOSAFETM BATTERY PERFORMANCE DATA
• CASE STUDY 1: A123 SYSTEMS BATTERY
  • CASE STUDY 1: A123 SYSTEMS BATTERY (CONTINUED)
• CASE STUDY 2: ALTAIR NANOTECHNOLOGIES BATTERY
• CASE STUDY 3: MPHASE TECHNOLOGIES MULTI-BATTERIES
  • TABLE 13 NANO-ENABLED CHEMISTRIES AND MANUFACTURERS IN 2008

• APPLICATIONS
  • POWER TOOLS
    • POWER TOOLS (CONTINUED)
      • NANO-ENABLED BATTERIES VERSUS NORMAL LITHIUM BATTERIES IN POWER TOOLS
        • CASE STUDY 1: MILWAUKEE ELECTRIC TOOL CORP. CORDLESS POWER TOOLS
        • CASE STUDY 2: DEWALT-BLACK & DECKER CORDLESS POWER TOOLS
  • BATTERIES FOR VEHICLES
    • BATTERIES FOR VEHICLES (CONTINUED)
  • HYBRID ELECTRIC VEHICLES (HEVS)
  • ELECTRIC VEHICLES (EVS)
  • PLUG-IN HYBRID ELECTRIC VEHICLES (PHEVS)
  • LIGHT ELECTRIC VEHICLES (LEVS)
  • HEAVY-DUTY VEHICLES
  • COMPARISON OF NANO-ENABLED BATTERIES VERSUS NORMAL NIMH BATTERIES IN HYBRIDS/EVS
    • CASE STUDY 1: TOYOTA PRIUS CONVERTED TO PHEV
    • CASE STUDY 2: KILLACYCLE, ELECTRIC MOTORCYCLE RUNNING ON NANO-ENABLED BATTERIES
  • NANOSTRUCTURED BATTERIES FOR LAPTOPS
    • NANOSTRUCTURED BATTERIES FOR LAPTOPS (CONTINUED)
      • TABLE 14 USERS OF NANO-ENABLED BATTERIES IN 2008
      • TABLE 15 TYPICAL SPECIFICATIONS OF COMMERCIALLY AVAILABLE NANO BATTERIES IN 2008
      • TABLE 16 NANO-ENABLED BATTERY ADVANTAGE IN THE TOYOTA PRIUS HYBRID CAR CONVERTED TO PHEV

• INDUSTRY STRUCTURE
  • INDUSTRY STRUCTURE (CONTINUED)
  • INDUSTRY STRUCTURE (CONTINUED)
  • INDUSTRY STRUCTURE (CONTINUED)
    • TABLE 17 TOP MANUFACTURERS OF NANO-ENABLED BATTERIES FOR CORDLESS TOOLS, TRANSPORT AND UTILITIES (ELECTRIC FORK LIFT), 2008
• COMPETITION
  • COMPETITION (CONTINUED)
  • COMPETITION (CONTINUED)
  • R&D IN NANOSTRUCTURED MATERIALS IMPACTING THE NANO-ENABLED BATTERY BUSINESS
    • TABLE 18 ONGOING RESEARCH IN NANOSTRUCTURED ELECTRODE MATERIALS IMPACTING THE NANO BATTERY BUSINESS BEYOND 2008
    • TABLE 18 ONGOING RESEARCH IN NANOSTRUCTURED ELECTRODE MATERIALS IMPACTING THE NANO BATTERY BUSINESS BEYOND 2008 (CONTINUED)
    • TABLE 18 ONGOING RESEARCH IN NANOSTRUCTURED ELECTRODE MATERIALS IMPACTING THE NANO BATTERY BUSINESS BEYOND 2008 (CONTINUED)
    • TABLE 19 COMPANY/PRODUCT REFERENCE FOR NANO-ENABLED BATTERIES
  • PARTNERSHIPS AND CONSOLIDATIONS
    • TABLE 20 RELATIONSHIPS OF TECHNOLOGY PROVIDERS AND MANUFACTURERS IN CHINA DURING 2007-2008
    • TABLE 21 RELATIONSHIPS OF MANUFACTURERS WITH END USERS (OEMS) DURING 2007-2008
    • TABLE 22 RELATIONSHIPS FOR DEVELOPMENT OF COMPONENTS OF NANO-ENABLED LITHIUM BATTERIES FROM 2006-JULY 2008
  • RESEARCH AND DEVELOPMENT FUNDING
    • TABLE 23 FUNDING TO DEVELOP ADVANCED NANO-ENABLED BATTERIES, 2006 THROUGH AUG 15, 2008
    • TABLE 23 FUNDING TO DEVELOP ADVANCED NANO-ENABLED BATTERIES, 2006 THROUGH AUG 15, 2008 (CONTINUED)
    • TABLE 23 FUNDING TO DEVELOP ADVANCED NANO-ENABLED BATTERIES, 2006 THROUGH AUG 15, 2008 (CONTINUED)
• OVERVIEW OF MATERIAL SUPPLIERS
  • TABLE 24 MAJOR SUPPLIERS OF MATERIALS FOR NANO-ENABLED BATTERIES
  • TABLE 24 MAJOR SUPPLIERS OF MATERIALS FOR NANO-ENABLED BATTERIES (CONTINUED)
  • TABLE 25 NANO-ENABLED BATTERY INDUSTRY PARTICIPANTS
  • TABLE 25 NANO-ENABLED BATTERY INDUSTRY PARTICIPANTS (CONTINUED)
  • TABLE 25 NANO-ENABLED BATTERY INDUSTRY PARTICIPANTS (CONTINUED)

• GLOBAL AND REGIONAL MARKETS
  • GLOBAL MARKET ACCORDING TO TYPES
    • TABLE 26 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO-ENABLED BATTERIES, BY TYPE 2008 AND 2013
    • FIGURE 5 GLOBAL MARKET FOR NANO ENABLED BATTERIES, BY TYPE 2008 AND 2013 ($ MILLIONS)
  • BASIS OF MARKET ESTIMATIONS
  • NANO-ENABLED VERSUS MICRONIC RECHARGEABLE BATTERIES
    • TABLE 27 PERCENTAGE OF NANO- VERSUS MICRONIC-STRUCTURED BATTERIES BY MARKET DOMAIN IN 2008
    • TABLE 28 PERCENTAGE OF NANO-ENABLED VERSUS MICRONIC STRUCTURED BATTERIES IN 2013
  • NANO-ENABLED BATTERIES FOR TRANSPORT ENERGY STORAGE
    • TABLE 29 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO-ENABLED BATTERIES IN TRANSPORT AND UTILITY ENERGY STORAGE, 2008 AND 2013
  • NANO-ENABLED BATTERIES FOR CORDLESS TOOLS
    • TABLE 30 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO ENABLED BATTERIES IN CORDLESS TOOLS, 2008 AND 2013
  • GLOBAL MARKET ACCORDING TO TECHNOLOGIES
    • TABLE 31 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO-ENABLED BATTERIES BY TECHNOLOGY, 2008 AND 2013
    • FIGURE 6 GLOBAL MARKET SIZE FOR NANO-ENABLED BATTERIES BY TECHNOLOGY, 2008 AND 2013 ($ MILLIONS)
  • GLOBAL MARKET ACCORDING TO REGION
    • GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO-ENABLED BATTERIES BY REGION, 2008 AND 2013
      • FIGURE 7 GLOBAL MARKET SIZE FOR NANO-ENABLED BATTERIES BY REGION, 2008 AND 2013 ($ MILLIONS)
    • COST STRUCTURE OF NANO-ENABLED BATTERIES
    • COST STRUCTURE OF NANO-ENABLED BATTERIES (CONTINUED)
    • COST STRUCTURE OF NANO-ENABLED BATTERIES (CONTINUED)
    • COST STRUCTURE OF NANO-ENABLED BATTERIES (CONTINUED)
      • TABLE 33 COST BASIS FOR NANO LITHIUM-IRON-PHOSPHATE BATTERIES IN SIZE 26650 IN 2008
  • COST STRUCTURE OF NANO-ENABLED BATTERIES (CONTINUED)
• FUTURE DIRECTIONS FOR NANOSTRUCTURED BATTERIES
  • FUTURE DIRECTIONS FOR NANOSTRUCTURED BATTERIES (CONTINUED)

• PATENTS AND PATENT ANALYSIS
  • LIST OF PATENTS
    • METHOD OF MAKING FINE LITHIUM-IRON-PHOSPHATE/CARBON-BASED POWDERS WITH AN OLIVINE-TYPE STRUCTURE
    • SELF-ORGANIZING BATTERY STRUCTURE WITH ELECTRODE PARTICLES THAT EXERT A REPELLING FORCE ON THE OPPOSITE ELECTRODE
    • NANOPARTICLE-BASED POWER COATINGS AND CORRESPONDING STRUCTURES
    • LITHIUM TRANSITION-METAL PHOSPHATE POWDER FOR RECHARGEABLE BATTERIES
    • PREPARATION OF NANOCRYSTALLINE LITHIUM-TITANATE SPINELS
    • LITHIUM SECONDARY CELL WITH HIGH CHARGE AND DISCHARGE RATE CAPABILITY
    • METHODS FOR NANOWIRE GROWTH
    • STRUCTURES, SYSTEMS AND METHODS FOR JOINING ARTICLES AND MATERIALS AND USES THEREFOR
    • CONDUCTIVE LITHIUM STORAGE ELECTRODE
    • SYSTEMS AND METHODS FOR HARVESTING AND INTEGRATING NANOWIRES
    • POLYMER COMPOSITION FOR ENCAPSULATION OF ELECTRODE PARTICLES
    • SYSTEMS AND METHODS FOR NANOWIRE GROWTH AND HARVESTING
    • NANOSCALE WIRE-BASED SUBLITHOGRAPHIC PROGRAMMABLE LOGIC ARRAYS
    • POST-DEPOSITION ENCAPSULATION OF NANOSTRUCTURES: COMPOSITIONS, DEVICES AND SYSTEMS INCORPORATING SAME
    • HIGH-ASPECT-RATIO METAL-POLYMER COMPOSITE STRUCTURES FOR NANO INTERCONNECTS
    • LITHIUM SECONDARY CELL WITH HIGH CHARGE AND DISCHARGE RATE CAPABILITY
    • DETERMINISTIC ADDRESSING OF NANOSCALE DEVICES ASSEMBLED AT SUBLITHOGRAPHIC PITCHES
• NANOCOMPOSITES
  • ELECTROWETTING BATTERY HAVING A NANOSTRUCTURED ELECTRODE SURFACE
  • METHOD FOR MANUFACTURING SINGLE-WALL CARBON NANOTUBE TIPS
  • NANOSTRUCTURE LITHIUM-TITANATE ELECTRODE FOR HIGH CYCLE RATE RECHARGEABLE ELECTROCHEMICAL CELL
  • METHODS AND APPARATUS FOR DEPOSITION OF THIN FILMS
  • NANOSCALE ION STORAGE MATERIALS
  • METHODS OF POSITIONING AND/OR ORIENTING NANOSTRUCTURES
  • METHODS OF MAKING, POSITIONING AND ORIENTING NANOSTRUCTURES, NANOSTRUCTURE ARRAYS AND NANOSTRUCTURE DEVICES
  • NANOFIBER SURFACE-BASED CAPACITORS
  • SYSTEM AND PROCESS FOR PRODUCING NANOWIRE COMPOSITES AND ELECTRONIC SUBSTRATES THEREFROM
  • COATED ELECTRODE PARTICLES FOR COMPOSITE ELECTRODES AND ELECTROCHEMICAL CELLS
  • METHOD OF PRODUCING REGULAR ARRAYS OF NANOSCALE OBJECTS USING NANOSTRUCTURED BLOCK-COPOLYMERIC MATERIALS
  • ARRAY-BASED ARCHITECTURE FOR MOLECULAR ELECTRONICS
  • ELECTROLYTIC PEROVSKITES
  • PROCESS FOR MAKING NANOSIZED STABILIZED ZIRCONIA
  • METHOD FOR PRODUCING MIXED METAL OXIDES AND METAL OXIDE COMPOUNDS
  • SUBLITHOGRAPHIC NANOSCALE MEMORY ARCHITECTURE
  • METHODS OF MAKING, POSITIONING AND ORIENTING NANOSTRUCTURES, NANOSTRUCTURE ARRAYS AND NANOSTRUCTURE DEVICES
  • TIN OXIDE NANOSTRUCTURES
  • CATHODE MATERIAL FOR LITHIUM BATTERY
  • METHOD OF MANUFACTURING NANOSIZED LITHIUM-COBALT OXIDES BY FLAME-SPRAYING PYROLYSIS
  • PROCESS FOR MAKING LITHIUM TITANATE
  • PROCESS FOR MAKING NANOSIZED AND SUBMICRON-SIZED LITHIUM-TRANSITION METAL OXIDES
  • STOCHASTIC ASSEMBLY OF SUBLITHOGRAPHIC NANOSCALE INTERFACES
  • METHODS OF POSITIONING AND/OR ORIENTING NANOSTRUCTURES
  • SALTS OF ALKALI METALS OF N, N' DISUBSTITUTED AMIDES OF ALKANE SULFINIC ACID AND NONAQUEOUS ELECTROLYTES ON THEIR BASIS
  • NEGATIVE ELECTRODES FOR LITHIUM CELLS AND BATTERIES
  • SECONDARY POWER SOURCE HAVING A LITHIUM TITANATE ELECTROLYTE
  • OXYGEN ION CONDUCTING MATERIALS
  • NONAQUEOUS ELECTROLYTES BASED ON ORGANOSILICON AMMONIUM DERIVATIVES FOR HIGH-ENERGY POWER SOURCES
  • ELECTRODES FOR LITHIUM BATTERIES
  • NONAQUEOUS SECONDARY BATTERY WITH LITHIUM TITANIUM CATHODE
  • LONG-LIFE LITHIUM BATTERIES WITH STABILIZED ELECTRODES
  • INTERMETALLIC NEGATIVE ELECTRODES FOR NON-AQUEOUS LITHIUM CELLS AND BATTERIES
  • METHOD FOR PRODUCING CATALYST STRUCTURES
  • DEVELOPMENT OF A GEL-FREE MOLECULAR SIEVE BASED ON SELF-ASSEMBLED NANO-ARRAYS

• PATENT ANALYSIS
  • TABLE 34 NUMBER OF U.S. PATENTS GRANTED TO COMPANIES DEVELOPING MATERIALS AND PROCESS TECHNOLOGIES FOR NANO-ENABLED BATTERIES FROM 2004 THROUGH JUNE 2008
  • FIGURE 8 TOP COMPANIES IN TERMS OF U.S. PATENTS GRANTED FOR NANO-ENABLED BATTERIES FROM 2004 THROUGH JUNE 2008
• INTERNATIONAL OVERVIEW OF U.S. PATENT ACTIVITY IN NANO-ENABLED BATTERIES
  • TABLE 34 NUMBER OF U.S. PATENTS GRANTED BY COUNTRY/REGION FOR NANOSTRUCTURED BATTERIES, (JANUARY 2004 TO JUNE 2008)
• OTHER INTERNATIONAL PATENTS

• COMPANY PROFILES
  • 3M
  • A123 SYSTEMS
  • A123 SYSTEMS (CONTINUED)
  • ACTACELL, INC.
  • ADVANCED BATTERY TECHNOLOGIES, INC.
  • ADVANCED MEMBRANE SYSTEMS
  • ALFA AESAR
  • ALTAIR NANOTECHNOLOGIES, INC.
  • ARGONNE NATIONAL LABORATORY
  • CELGARD K.K.
  • CHINA BAK BATTERY, INC.
  • CONTINENTAL AG
  • DEGUSAA
  • DEWALT INDUSTRIAL TOOL CO.
  • EDRIVE SYSTEMS LLC
  • ELECTROVAYA
  • ENER1, INC.
  • ENERGYPLEX CORPORATION
  • ENTEK MEMBRANES LLC
  • GE GLOBAL RESEARCH CENTER
  • GENERAL MOTORS
  • GRIDPOINT, INC.
  • HITACHI MAXELL
  • HYBRID PLUS
  • KILLACYCLE
  • MPHASE TECHNOLOGIES
  • MPHASE TECHNOLOGIES (CONTINUED)
  • MILWAUKEE ELECTRIC TOOL CORPORATION
  • MITSUI MINING & SMELTING CO.
  • NGIMAT CO.
  • NANOENER, INC.
  • NANOEXA
  • NANOGRAM
  • PHOSTECH LITHIUM INC.
  • NEI CORPORATION
  • PIHSIANG ENERGY TECHNOLOGY CO., LTD.
  • PIHSIANG ENERGY TECHNOLOGY CO., LTD. (CONTINUED)
  • QUANTUMSPHERE, INC.
  • QUANTUMSPHERE, INC. (CONTINUED)
  • QUALLION LLC
  • QUALLION LLC (CONTINUED)
  • SHOWA DENKO CARBON, INC.
  • SRI INTERNATIONAL
  • SUD-CHEMIE AG
  • SUN NANOTECH CO., LTD.
  • THINK GLOBAL AS
  • TIMCAL LTD.
  • TJ TECHNOLOGIES
  • TODA KOGYO CORP. OF JAPAN
  • TOSHIBA BATTERY CO., LTD.
  • VALENCE
  • YAZAKI
  • ZHANGJIAGANG GUOTAI-HUARONG NEW CHEMICAL MATERIALS CO.

LIST OF TABLES

• SUMMARY TABLE GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANOENABLED BATTERIES BY TYPE, 2008 AND 2013
• TABLE 1 ELECTROCHEMICAL CHARACTERSTICS OF RECHARGEABLE BATTERIES
• TABLE 2 DEFINITIONS OF KEY TERMINOLOGIES USED IN NANO-ENABLED BATTERIES
• TABLE 2 DEFINITIONS OF KEY TERMINOLOGIES USED IN NANO-ENABLED BATTERIES (CONTINUED)
• TABLE 3 COMPARISON OF RECHARGEABLE BATTERY POWER SOURCE OPTIONS
• TABLE 4 SYNTHESIS PROCESSES USED TO MANUFACTURE NANOSTRUCTURED MATERIALS USED IN ELECTRODES FOR NANO-ENABLED LITHIUM BATTERIES
• TABLE 4 SYNTHESIS PROCESSES USED TO MANUFACTURE NANOSTRUCTURED MATERIALS USED IN ELECTRODES FOR NANO-ENABLED LITHIUM BATTERIES (CONTINUED)
• TABLE 4 SYNTHESIS PROCESSES USED TO MANUFACTURE NANOSTRUCTURED MATERIALS USED IN ELECTRODES FOR NANO-ENABLED LITHIUM BATTERIES (CONTINUED)
• TABLE 5 MICRON-SCALE CATHODE ELECTRODE MATERIALS
• TABLE 6 NANOSCALE CATHODE ELECTRODE LITHIUM IRON PHOSPHATE PROPERTIES WITH DIFFERENT CARBON % DOPING
• TABLE 7 ELECTROLYTES USED IN NANO-ENABLED BATTERIES
• TABLE 8 ORGANIC SOLVENTS USED IN NANO-ENABLED BATTERY
• TABLE 9 MATERIALS USED IN NANOSTRUCTURED ELECTRODES OF RECHARGEABLE BATTERIES AND THEIR ELECTROCHEMICAL PROPERTIES
• TABLE 9 MATERIALS USED IN NANOSTRUCTURED ELECTRODES OF RECHARGEABLE BATTERIES AND THEIR ELECTROCHEMICAL PROPERTIES (CONTINUED)
• TABLE 9 MATERIALS USED IN NANOSTRUCTURED ELECTRODES OF RECHARGEABLE BATTERIES AND THEIR ELECTROCHEMICAL PROPERTIES (CONTINUED)
• TABLE 9 MATERIALS USED IN NANOSTRUCTURED ELECTRODES OF RECHARGEABLE BATTERIES AND THEIR ELECTROCHEMICAL PROPERTIES (CONTINUED)
• TABLE 10 SUMMARY OF OTHER POTENTIAL MATERIALS FOR NANOSTRUCTURED ELECTRODES USED IN BATTERIES
• TABLE 10 SUMMARY OF OTHER POTENTIAL MATERIALS FOR NANOSTRUCTURED ELECTRODES USED IN BATTERIES (CONTINUED)
• TABLE 10 SUMMARY OF OTHER POTENTIAL MATERIALS FOR NANOSTRUCTURED ELECTRODES USED IN BATTERIES (CONTINUED)
• TABLE 11 LAYERED, SPINEL AND OLIVINE STRUCTURE OF POSITIVE ELECTRODE MATERIAL FOR NANO-ENABLED LITHIUM BATTERIES
• TABLE 12 NANOSAFETM BATTERY PERFORMANCE DATA
• TABLE 13 NANO-ENABLED CHEMISTRIES AND MANUFACTURERS IN 2008
• TABLE 14 USERS OF NANO-ENABLED BATTERIES IN 2008
• TABLE 15 TYPICAL SPECIFICATIONS OF COMMERCIALLY AVAILABLE NANO BATTERIES IN 2008
• TABLE 16 NANO-ENABLED BATTERY ADVANTAGE IN THE TOYOTA PRIUS HYBRID CAR CONVERTED TO PHEV
• TABLE 17 TOP MANUFACTURERS OF NANO-ENABLED BATTERIES FOR CORDLESS TOOLS, TRANSPORT AND UTILITIES (ELECTRIC FORK LIFT), 2008
• TABLE 18 ONGOING RESEARCH IN NANOSTRUCTURED ELECTRODE MATERIALS IMPACTING THE NANO BATTERY BUSINESS BEYOND 2008
• TABLE 18 ONGOING RESEARCH IN NANOSTRUCTURED ELECTRODE MATERIALS IMPACTING THE NANO BATTERY BUSINESS BEYOND 2008 (CONTINUED)
• TABLE 18 ONGOING RESEARCH IN NANOSTRUCTURED ELECTRODE MATERIALS IMPACTING THE NANO BATTERY BUSINESS BEYOND 2008 (CONTINUED)
• TABLE 19 COMPANY/PRODUCT REFERENCE FOR NANO-ENABLED BATTERIES
• TABLE 20 RELATIONSHIPS OF TECHNOLOGY PROVIDERS AND MANUFACTURERS IN CHINA DURING 2007-2008
• TABLE 21 RELATIONSHIPS OF MANUFACTURERS WITH END USERS (OEMS) DURING 2007-2008
• TABLE 22 RELATIONSHIPS FOR DEVELOPMENT OF COMPONENTS OF NANOENABLED LITHIUM BATTERIES FROM 2006-JULY 2008
• TABLE 23 FUNDING TO DEVELOP ADVANCED NANO-ENABLED BATTERIES, 2006 THROUGH AUG 15, 2008
• TABLE 23 FUNDING TO DEVELOP ADVANCED NANO-ENABLED BATTERIES, 2006 THROUGH AUG 15, 2008 (CONTINUED)
• TABLE 23 FUNDING TO DEVELOP ADVANCED NANO-ENABLED BATTERIES, 2006 THROUGH AUG 15, 2008 (CONTINUED)
• TABLE 24 MAJOR SUPPLIERS OF MATERIALS FOR NANO-ENABLED BATTERIES
• TABLE 24 MAJOR SUPPLIERS OF MATERIALS FOR NANO-ENABLED BATTERIES (CONTINUED)
• TABLE 25 NANO-ENABLED BATTERY INDUSTRY PARTICIPANTS
• TABLE 25 NANO-ENABLED BATTERY INDUSTRY PARTICIPANTS (CONTINUED)
• TABLE 25 NANO-ENABLED BATTERY INDUSTRY PARTICIPANTS (CONTINUED)
• TABLE 26 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO-ENABLED BATTERIES, BY TYPE 2008 AND 2013
• TABLE 27 PERCENTAGE OF NANO- VERSUS MICRONIC-STRUCTURED BATTERIES BY MARKET DOMAIN IN 2008
• TABLE 28 PERCENTAGE OF NANO-ENABLED VERSUS MICRONIC STRUCTURED BATTERIES IN 2013
• TABLE 29 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO-ENABLED BATTERIES IN TRANSPORT AND UTILITY ENERGY STORAGE, 2008 AND 2013
• TABLE 30 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO ENABLED BATTERIES IN CORDLESS TOOLS, 2008 AND 2013
• TABLE 31 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO-ENABLED BATTERIES BY TECHNOLOGY, 2008 AND 2013
• TABLE 32 GLOBAL MARKET SIZE/PERCENTAGE SHARE FOR NANO-ENABLED BATTERIES BY REGION, 2008 AND 2013
• TABLE 33 COST BASIS FOR NANO LITHIUM-IRON-PHOSPHATE BATTERIES IN SIZE 26650 IN 2008
• TABLE 34 NUMBER OF U.S. PATENTS GRANTED TO COMPANIES DEVELOPING MATERIALS AND PROCESS TECHNOLOGIES FOR NANO-ENABLED BATTERIES FROM 2004 THROUGH JUNE 2008
• TABLE 34 NUMBER OF U.S. PATENTS GRANTED BY COUNTRY/REGION FOR NANOSTRUCTURED BATTERIES, (JANUARY 2004 TO JUNE 2008)

LIST OF FIGURES

• SUMMARY FIGURE GLOBAL MARKET SIZE FOR NANO-ENABLED BATTERIES BY TYPE, 2008 AND 2013 ($ MILLIONS)
• FIGURE 1 SCHEMATIC OF A LITHIUM-ION CELL
• FIGURE 2 SCHEMATIC OF A CYLINDRICAL LITHIUM-ION CELL
• FIGURE 3 SCHEMETIC OF A CELL.MODULE, PACK
• FIGURE 4 SCHEMETIC DIAGRAM OF A LITHIUM ION BATTERY SHOWING ION MOVEMENT
• FIGURE 5 GLOBAL MARKET FOR NANO ENABLED BATTERIES, BY TYPE 2008 AND 2013 ($ MILLIONS)
• FIGURE 6 GLOBAL MARKET SIZE FOR NANO-ENABLED BATTERIES BY TECHNOLOGY, 2008 AND 2013 ($ MILLIONS)
• FIGURE 7 GLOBAL MARKET SIZE FOR NANO-ENABLED BATTERIES BY REGION, 2008 AND 2013 ($ MILLIONS)
• FIGURE 8 TOP COMPANIES IN TERMS OF U.S. PATENTS GRANTED FOR NANOENABLED BATTERIES FROM 2004 THROUGH JUNE 2008