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市場調査レポート
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Abstract
This report analyzes the worldwide markets for Nanofilms in US$ Million. The
market for 'Nanofilms' in the report is analyzed by Established Nanofilms, and
Emerging Nanofilms. The report provides separate comprehensive analytics for
the USA, Japan, Europe, and Rest of World. Annual forecasts are provided for
each region for the period of 2000 through 2010. The report profiles 46
companies including many key and niche players worldwide such as Advanced Nano
Products Co., Ltd., Altair Nanotechnologies, Inc., Applied Materials, Inc.,
Biophan Technologies, Inc., Degussa Advanced Nanomaterials, Denton Vacuum
U.S.A., General Nanotechnology LLC, Innovative Materials Processing
Technologies Ltd, Konarka Technologies, Inc., Nanergy, Inc., Nanofilm Company,
Nanofilm Technologies International Pte Ltd, Nanogate AG, NanoMaterials
Technology Pte Ltd., Nanophase Technologies Corporation, NovaCentrix, Osmic,
Inc., and Williams Advanced Materials. Market data and analytics are derived
from primary and secondary research. Company profiles are mostly extracted
from URL research and reported select online sources.
Table of Contents
I. INTRODUCTION, METHODOLOGY & PRODUCT DEFINITIONS
- Study Reliability and Reporting Limitations I-1
- Disclaimers I-2
- Data Interpretation & Reporting Level I-2
- Quantitative Techniques & Analytics I-3
- Product Definitions and Scope of Study I-3
- 1. Product Segment I-3
- Established Nanofilms I-3
- Emerging Nanofilms I-4
- 2. End-Use Segment I-4
- Microelectronics I-4
- Information Storage I-4
- Medical Devices I-4
- Others (photovoltaics, automotive, scratch resistant plastic, friction
reducing agents, and cutting tools) I-4
II. EXECUTIVE SUMMARY
1. Industry Overview II-1
- Market Snapshots II-1
- Market Trends and Issues II-1
- Growing Commercial Applications Boost Nanofilms Market II-1
- Nanofilms Demand in Automotives Improves as Advantages Unfold II-1
- Thin Films - Snatching the Lead from Thick Films II-2
- Chemical Deposition Methods Dominate Thin Film Market II-2
- Conformal Deposition Techniques Growing Rapidly in Semiconductor Device
Sector II-2
- Thin Films Gaining Rich Favors in Photovoltaics Market II-2
- Nanotechnology - An Overview II-3
- A Revolution in the Making II-3
2. Global Market Analysis II-5
- By Region II-5
- Table 1: Global Nanofilms Market (2000-2010): Percentage Breakdown of
Value Sales by Geographical Region - USA, Japan, Europe, Rest of World
(includes corresponding Graph/Chart) II-5
- Table 2: Global Nanofilms Market (2000-2010): Geographic Regions Ranked by
Growth - USA, Japan, Europe, Rest of World (includes corresponding
Graph/Chart) II-5
- By Product Segment II-6
- Table 3: Global Nanofilms Market (2000-2010): Percentage Breakdown of
Value Sales by Product Segment -Established Nanofilms and Emerging Nanofilms
II-6
- Table 4: Global Nanofilms Market (2000-2010): Product Segments Ranked by
Growth - Established Nanofilms and Emerging Nanofilms II-6
- By End-Use Segment II-6
- Table 5: Global Nanofilms Market (2000-2010): Percentage Breakdown of
Value Sales by End-Use Segment - Microelectronics, Information Storage,
Medical Devices, and Others (includes corresponding Graph/Chart) II-7
- Table 6: Global Nanofilms Market (2000-2010): End-Use Segments Ranked by
Growth - Microelectronics, Information Storage, Medical Devices, and Others
(includes corresponding Graph/Chart) II-7
3. Product Overview II-8
- Nanofilms - A Primer II-8
- Types of Nanofilms II-8
- Characteristics of High Quality Nanofilms II-8
- Polypeptide Nanofilms' Stability in Extreme Physical/Chemical Environment
II-8
- Nanofilms and Surface Modification II-9
- How Nanofilms Add Value to Coatings? II-9
- Advantages of Nanofilm Coatings II-10
- Precise Control of Layer Uniformity and Thickness - Key to Cutting-Edge
Nanofilm Applications II-10
- Major Nanofilm Applications II-10
- Thin Films II-11
- Similarities Among Various Thin Films II-11
- Deposition of Thin Films II-12
- Depositing Optical Thin Film Coatings II-12
- Application of Multiple Thin Film Coatings on Optical Components II-12
- Production Yield - A Key Measure to Determine Thin Film Production
Viability II-12
- Key Materials Used for Thin Film Deposition II-12
- Titania II-13
- Magnesium Fluoride II-13
- Ferroelectric Substances II-13
- TiOxNy Compounds II-13
- Major Materials Used in Thin Film Coatings at a Glance II-14
- Key Thin Film Deposition Systems II-14
- EvoVac Deposition System II-14
- Glove Box Thin Film Deposition System II-14
- Balzers BAS 450 System for Magnetron Sputtering II-15
- Radio Frequency (RF) Sputtering System II-15
- Veeco Thermal Evaporation System II-15
- E-Beam Evaporation System II-15
- Vacuum Technology - An Essential Element in Modern Deposition/Coating
Processes II-15
- Major Vacuum Coating Systems II-16
- Vacuum Web Coating II-16
- Vacuum Optical Coating II-16
- Vacuum Glass Coating II-16
- Vacuum Coating for Data Storage Disks II-17
- Thin Film Deposition/Coating Techniques II-17
- Vapor Deposition II-17
- Physical Vapor Deposition (PVD) II-18
- Plasma Based Ion Plating II-18
- Laser Surface Alloying II-18
- Sputtering II-19
- Sputtering Replaces Evaporation II-19
- Cluster Tools - A Key Element in Success of Sputtering Process II-19
- DC Reactive Sputtering Process for Dielectric Films II-20
- Arcing Process in Sputtering II-20
- Arc Control Enhances Sputtering Yield II-20
- Arc Formation in Reactive DC Sputtering II-20
- Magnetron Sputter Deposition II-21
- Plasmaquest (PQL)'s HiTUS Process Technology for Sputtering Magnetic
Material II-22
- Cathode Sputtering II-22
- Radio Frequency (RF) Magnetron-Sputtering II-23
- Advantages of Sputtering II-23
- Drawbacks of Sputtering II-23
- Process Developments in Sputtering II-23
- Applications of Sputter Lift off Process in Semiconductor Fabrication II-24
- Hardware Developments in Sputtering Process II-24
- Key Advantages of Long Throw Process Include: II-24
- Ion Implantation II-24
- Chemical Vapor Deposition (CVD) II-25
- Global Market for Chemical Deposition Process II-26
- Advantages of CVD II-26
- Disadvantages of CVD II-26
- Chemical Vapor Deposition and Reactive Plasma Deposition (RPD) - A
Comparison II-26
- Diamond CVD Coating process II-27
- Plasma Assisted CVD Coating Process II-27
- Plasma Enhanced Chemical Vapor Deposition (PECVD) II-27
- Radical Activated Chemical Vapor Deposition (RACVD) II-27
- Pulsed Laser Deposition (PLD) II-27
- Major Limitations of PLD Technique II-28
- PLD Process for Developing Chalcogenide Glass Thin Films II-28
- Pulsed Laser Ablation (PLA) II-28
- Advantages of PLA II-28
- Laser Ablation - An Effective Method for High-Temperature Superconducting
(HTS) Film Deposition II-29
- Laboratory Application of PLA for Thin Film Deposition II-29
- Cathodic Arc Deposition (CAD) II-29
- Filtered Cathodic Vacuum Arc Deposition (FCVA) II-30
- Thin Film Deposition/Coating through Evaporation Process II-30
- Thermal Evaporation II-30
- Electron Beam Evaporation II-30
- A Major Technique for Developing Optical Quality Thin Films II-31
- E-beam Evaporation for Reactive Ion-Assisted Co-Deposition (RIACD) II-31
- Activated Reactive Evaporation II-31
- Cathodic Arc Evaporation II-32
- Atomic Layer Deposition II-32
- Atomic Layer Deposition (ALD) - A Highly Reliable Thin Film Deposition
Technology for Semiconductors II-32
- Self-Limiting Processes in ALD Method II-32
- Precursors - A Key Part of Atomic Layer Deposition II-33
- Atomic Layer Deposition Reactors II-33
- Major ALD Equipment Producers II-34
- ALD and Other Film Deposition Methods for Gate Dielectric Films - A
Comparison II-34
- Modifying CVD System to Form ALD System II-35
- Advantages of Atomic Layer Deposition II-35
- Disadvantages of ALD II-35
- Key Applications of Atomic Layer Deposition II-35
- Alternative and Conventional Technologies for Metal Deposition - A
Comparison II-36
- An Overview of Major Alternative Technologies for Deposition of Metals
II-36
- Review of Key Alternative Technologies II-37
- Thermal Spray Coating II-37
- Types of Thermal Spray Coating Processes II-37
- Combustion Torch/Flame Spraying II-37
- Combustion Torch/Detonation Gun II-37
- Combustion Torch/High-Velocity Oxy Fuel II-38
- Plasma Spraying II-38
- Electric Arc Spraying II-38
- Ion Beam Technology in Thin Film Processing Applications II-38
- Pre-deposition Cleaning Using Ion Beam II-39
- Surface Preconditioning for Thin Film Deposition on Polymers II-39
- Ion Beam Etching II-39
- Chemically Assisted Ion Beam Etching (CAIBE) II-40
- Deposition Using Ion Beam II-40
- Advantages of Ion Beam Deposition II-40
- Ion Beam Sputter Deposition (IBSD) II-40
- Ion Beam Assisted Deposition (IBAD) II-41
- Diamond-Like Carbon Coatings (DLC) Using Ion Beam II-41
- Comparison Between Diamond Like Carbon Coating and Tetrahedral Amorphous
Coating II-41
- Thin Film Deposition in MEMS Processes II-42
- Chemical Reaction Process II-42
- Chemical Vapor Deposition (CVD) II-42
- Electrodeposition II-42
- Epitaxy II-43
- Thermal Oxidation II-43
- Physical Reaction Process II-43
- Physical Vapor Deposition (PVD) II-43
- PVD through Evaporation II-43
- PVD through Sputtering II-44
- Casting II-44
4. Raw Material Overview II-45
- Thin Film Raw Materials II-45
- Factors Driving Growth of Thin Film Raw Materials II-45
- Thin Film Raw Materials Derive Demand from Emerging End-Use Applications
II-45
- Raw Material Usage in Chemical Deposition Process II-45
- Raw Material Usage in Physical Deposition Process II-46
- Global Market for Sputtering Materials II-46
- Raw Materials Reflect Upon Future Trends in Thin Film Markets II-46
- Raw Material Shortage - A Grave Problem II-47
5. End-Use Analysis II-48
- Thin Films/Nanofilms in Photovoltaic (PV) Application II-48
- Thin Film Based Photovoltaics - A Highly Potential Alternative Source for
Power Generation II-48
- Despite Immense Potential... Challenges Remain II-48
- Thin Film Technologies in PV Production II-49
- Introduction II-49
- Select Major Thin Film Technologies II-49
- Amorphous Silicon Thin Films (a-Si) II-49
- Cu (In,Ga)Se2 Thin Films II-49
- Cadmium Telluride (CdTe) Thin Films II-49
- Thin Film Silicon II-50
- Dye-Sensitized TiO2 Thin Films II-50
- Table 7: Key Thin Film PV Technologies Measured in Terms of Cell
Efficiency, Module Efficiency, and Materials Costs (includes corresponding
Graph/Chart) II-50
- Table 8: Select Thin Film Technologies and Their Payback Time (includes
corresponding Graph/Chart) II-51
- Table 9: Global Photovoltaic Market (2004): Percentage Breakdown of PV
Module Production by Technology Employed - Polycrystal, Single Crystal Flat
Plate, a-Si on CZ Slice, Amorphous Silicon, Microcrystal Si/Single Si, Copper
Indium Diselenide, Cadmium Telluride, and Others (includes corresponding
Graph/Chart) II-51
- Commercial Production of Thin Film PV Modules II-51
- Leading Players in Thin PV Module Production II-52
- Table 10: Select High Efficiency PV Thin Cells by Company/ Organization
(includes corresponding Graph/Chart) II-52
- Select Thin Film PV Modules by Company/Organization II-52
- Photovoltaics Contribution to Global Power Supply Remains Insignificant
II-53
- Future Direction for Thin Film PV Technologies II-53
- Global Photovoltaic Market - A Perspective II-53
- Increasing Global Competition and Technological Development II-53
- Efforts for Developing Global Photovoltaic Industry II-54
- Governmental Support Mandatory for Development of PV Applications II-54
- Market Penetration Strategies Adopted by PV Manufacturers II-55
- Customer Relations Always Pay II-55
- Maintaining Proximity with End-Users II-55
- Isolation of Production and Assembly to Further Reduce Costs II-55
- Global PV Installations II-55
- Table 11: Global Photovoltaic Market (2005): Percentage Breakdown of PV
Installation (in Megawatt) by Region - Germany, Japan, United States, Rest of
Europe, and Rest of World (includes corresponding Graph/Chart) II-56
- Solar Cell Production II-56
- Table 12: Global Photovoltaic Market (2005): Percentage Breakdown of Solar
Cell Production by Region/Country - Japan, Europe, United States, and Others
(includes corresponding Graph/Chart) II-56
- Disparity in Global PV Feedstock Production II-56
- Global Installed PV Capacity II-56
- US Position in Global PV Production II-56
- Table 13: US Photovoltaic Market (1990-2004): Percentage Share in Global
PV Production (includes corresponding Graph/Chart) II-57
- PV Production Growing in Japan and Germany II-57
- Japan's Status in Global Photovoltaic Market II-57
- Key Challenges Facing Photovoltaics Market II-58
- Nanofilms in Automotives II-58
6. Research and Development II-59
- Research Underway for Developing Building Integrated Opaque Solar Cells
II-59
- Research in Nanofilms at Molecular Level II-59
- Cost Reduction Efforts in Photovoltaic Technologies II-59
- Scientists Develop Carbon Nanoparticles to Synthesize Thin Films for
Optoelectronics or Biomedicine Application II-59
- Scientists Develop Nanofilm Detectors to Detect Presence of Acid Particles
in Air II-60
- Possible Future Innovations with Nanofilms II-60
- Researchers at the University of California Develop Ultra Thin Solar Cells
II-61
- Nanoindentation - A Novel Methodology to Establish Tensile Characteristics
of Nanofilms II-61
7. Technological Developments II-62
- XsunX Develops Power Glass Technology II-62
- XsunX Develops Reel-to-Reel Manufacturing Process for Thin Film Production
II-62
- How Nanofilms Entwined Itself into the Fiber of the Ophthalmic Industry?
II-62
- Jusung Engineering Develops PE CVD Design for LCD Manufacture II-63
- Jusung Engineering Develops 8G LCD PECVD II-63
8. Product Introductions/ Innovations II-64
- Nanofilm Develops Clarity Fog Eliminator™ II-64
- Osmic Develops Novel Thin-Film Coatings II-64
- Nanophase Technologies Releases NanoArc® Magnesium Oxide II-64
- BOC Edwards Introduces New Vacuum Coating System II-64
- Tokyo Electron Unveils New Chemical Vapor Deposition System II-65
- Nanophase Technologies Introduces Nanotek® Zinc Oxide HS30 II-65
- Nanophase Launches NanoShield ZN-3010 and NanoShieldZN-3012 II-65
- Applied Films Develops Color Shift Layers for Plastic Films II-65
- Applied Films Develops SMARTWEB™ II-65
- Applied Films Develops TOPMET™ System II-66
- Applied Films develops MULTIMET™ II-66
- Applied Films Develops New Method to Process Silicon Solar Modules II-66
- Applied NanoWorks Introduces CMP Abrasives II-66
- Nanophase Technologies Launches HSA Nanoproducts II-66
- Nanophase Technologies Develops NanoExpress Custom Synthesis Process II-66
- BYK Chemie Unveils NANOBYK 3600 II-67
- Nanophase Introduces NanoArc Synthesis Alumina Product II-67
- Nanophase Technologies Launches NanoArc Zinc Oxide II-67
- Nanofilm Unveils Clarity Defender II-67
- BASF Launches Mincor II-67
- Cabot Introduces Nanogel Aerogel II-67
9. Recent Industry Activity II-69
- Beito Acquires Nanergy II-69
- Applied Materials Acquires Applied Films II-69
- Thin Film Technology Bags Contracts to Offer Visilid™ Hermetic Window
Assemblies II-69
- Brookhaven Announces Plans to Offer Licenses for Nanofiber Films Synthesis
Technology II-69
- Nissho to Provide Specialized Services for Coating Carbon Nanofilms II-69
- Williams Advanced Materials to Expand Thin Film Chamber Services II-70
- Nanergy Acquires Nanmergeco II-70
- ObjectSoft Corporation Changes Name to Nanergy II-70
- Williams Advanced Materials Acquires Thin Film Technology II-70
- Konark Partners with Textronics II-70
- Konark Teams with Leonhard Kurz to Develop Light Activated Power Plastics
II-70
- Konarka and Ecole Join Hands to Develop Photovoltaic Fabric II-71
- Applied Films and Gebr. Schmid Form Alliance II-71
- Hydrogen Solar and Altair to Partner in R&D Project II-71
- Applied Films and IPV Jointly Develop PECVD Electrode II-71
- Nanophase Technologies and Alfa Aesar Form Distribution Alliance II-72
- Leybold Inks Distribution Agreement with Nanofilm II-72
- Genus Merges with AIXTRON II-72
- Konarka Strikes Deal with the US Army II-72
- Konarka and Solaris Ink Joint Development Agreement II-72
- Konarka Collaborates with Evident Technologies II-73
- Konarka Establishes New Center of Operations II-73
- Nanophase Receives US Patent for Abrasion-Resistant Films II-73
- Konarka Receives Grant from National Science Foundation II-73
- International Nanotechnology Corporation Inks Agreement with TSDC-N II-73
- ASM International Acquires Genitech II-73
- Grace Brothers Acquires Stake in Nanophase Technologies II-74
- Altana Chemie Acquires Stake in Nanophase Technologies II-74
- Konarka Acquires Patents Assets for Photovoltaic Products II-74
- Air Products and Nanogate Technologies Form Joint Venture II-74
- Konarka Licenses Intellectual Property from Dupont II-74
- Arrowhead Research Corporation to Establish New Subsidiary II-75
- Altair Nanotechnologies Restructures Operations II-75
- Nanophase Gains New European Patent II-75
- Tegal Corporation Receives Two US Patents for Nano Layer Deposition II-75
- Nanofilm Obtains European Patent for Self-assembled Coatings II-75
- Konarka Acquires Quantum Solar Energy Linz II-76
- DSM Invests in Optiva II-76
- Degussa AG Establishes Degussa Advanced Nanomaterials II-76
- Nanofilm Installs Nanocoating Application System for Norville Group II-76
- Degussa Commissions Pilot Reactor II-76
- Nanophase Receives US Patent II-76
10. Focus on Select Global Players II-77
- Advanced Nano Products Co., Ltd. (South Korea) II-77
- Altair Nanotechnologies, Inc. (USA) II-77
- Applied Materials, Inc. (USA) II-77
- Biophan Technologies, Inc. (USA) II-77
- Degussa Advanced Nanomaterials (Germany) II-78
- Denton Vacuum U.S.A. (USA) II-78
- General Nanotechnology LLC (USA) II-78
- Innovative Materials Processing (IMP) Technologies Ltd (UK) II-79
- Konarka Technologies, Inc. (USA) II-79
- Nanergy, Inc. (USA) II-79
- Nanofilm Company (USA) II-79
- Nanofilm Technologies International Pte Ltd (Japan) II-80
- Nanogate AG (Germany) II-80
- NanoMaterials Technology Pte Ltd. (Singapore) II-80
- Nanophase Technologies Corporation (USA) II-80
- NovaCentrix (USA) II-80
- Osmic, Inc. (USA) II-81
- Williams Advanced Materials (USA) II-81
11. Global Market Perspective II-82
- Table 14: World Recent Past, Current & Future Analysis for Nanofilms by
Geographic Region - USA, Japan, Europe, and Rest of World Markets
Independently Analyzed with Annual Sales Figures in US$ Million for Years 2000
through 2010 (includes corresponding Graph/Chart) II-82
- Table 15: World 10-Year Perspective for Nanofilms by Geographic Region -
Percentage Breakdown of Dollar Sales for USA, Japan, Europe, and Rest of World
Markets for Years 2000, 2006 & 2010 (includes corresponding Graph/Chart) II-82
- Table 16: World Recent Past, Current & Future Analysis for Established
Nanofilms by Geographic Region - USA, Japan, Europe, and Rest of World Markets
Independently Analyzed with Annual Sales Figures in US$ Million for Years 2000
through 2010 (includes corresponding Graph/Chart) II-83
- Table 17: World 10-Year Perspective for Established Nanofilms by
Geographic Region - Percentage Breakdown of Dollar Sales for USA, Japan,
Europe, and Rest of World Markets for Years 2000, 2006 & 2010 (includes
corresponding Graph/Chart) II-83
- Table 18: World Recent Past, Current & Future Analysis for Emerging
Nanofilms by Geographic Region - USA, Japan, Europe, and Rest of World Markets
Independently Analyzed with Annual Sales Figures in US$ Million for Years 2000
through 2010 (includes corresponding Graph/Chart) II-84
- Table 19: World 10-Year Perspective for Emerging Nanofilms by Geographic
Region - Percentage Breakdown of Dollar Sales for USA, Japan, Europe, and Rest
of World Markets for Years 2000, 2006 & 2010 (includes corresponding
Graph/Chart) II-84
- Table 20: World Recent Past, Current & Future Analysis for Nanofilms in
Microelectronics by Geographic Region - USA, Japan, Europe, and Rest of World
Markets Independently Analyzed with Annual Sales Figures in US$ Million for
Years 2000 through 2010 (includes corresponding Graph/Chart) II-85
- Table 21: World 10-Year Perspective for Nanofilms in Microelectronics by
Geographic Region - Percentage Breakdown of Dollar Sales for USA, Japan,
Europe, and Rest of World Markets for Years 2000, 2006 & 2010 (includes
corresponding Graph/Chart) II-85
- Table 22: World Recent Past, Current & Future Analysis for Nanofilms in
Information Storage by Geographic Region - USA, Japan, Europe, and Rest of
World Markets Independently Analyzed with Annual Sales Figures in US$ Million
for Years 2000 through 2010 (includes corresponding Graph/Chart) II-86
- Table 23: World 10-Year Perspective for Nanofilms in Information Storage
by Geographic Region - Percentage Breakdown of Dollar Sales for USA, Japan,
Europe, and Rest of World Markets for Years 2000, 2006 & 2010 (includes
corresponding Graph/Chart) II-86
- Table 24: World Recent Past, Current & Future Analysis for Nanofilms in
Medical Devices by Geographic Region - USA, Japan, Europe, and Rest of World
Markets Independently Analyzed with Annual Sales Figures in US$ Million for
Years 2000 through 2010 (includes corresponding Graph/Chart) II-87
- Table 25: World 10-Year Perspective for Nanofilms in Medical Devices by
Geographic Region - Percentage Breakdown of Dollar Sales for USA, Japan,
Europe, and Rest of World Markets for Years 2000, 2006 & 2010 (includes
corresponding Graph/Chart) II-87
- Table 26: World Recent Past, Current & Future Analysis for Nanofilms in
Other End-Uses by Geographic Region - USA, Japan, Europe, and Rest of World
Markets Independently Analyzed with Annual Sales Figures in US$ Million for
Years 2000 through 2010 (includes corresponding Graph/Chart) II-88
- Table 27: World 10-Year Perspective for Nanofilms in Other End-Uses by
Geographic Region - Percentage Breakdown of Dollar Sales for USA, Japan,
Europe, and Rest of World Markets for Years 2000, 2006 & 2010 (includes
corresponding Graph/Chart) II-88
III. MARKET
1. The United States III-1
- A. Market Analysis III-1
- Current and Future Analysis III-1
- Research and Development III-1
- Researchers at the University of California Develop Ultra Thin Solar Cells
III-1
- Scientists Develop Carbon Nanoparticles to Synthesize Thin Films for
Optoelectronics/ Biomedicine Application III-2
- Scientists Synthesize Nanofilm Detectors for Detecting Acid Particles in
Air III-2
- Technological Developments III-2
- Product Introductions/Innovations III-3
- Strategic Corporate Developments III-6
- Key Players III-12
- Altair Nanotechnologies, Inc. III-12
- Applied Materials, Inc. III-13
- Biophan Technologies, Inc. III-13
- Denton Vacuum U.S.A. III-13
- General Nanotechnology LLC III-14
- Konarka Technologies, Inc. III-14
- Nanergy, Inc. III-14
- Nanofilm Company III-14
- Nanophase Technologies Corporation III-15
- NovaCentrix III-15
- Osmic, Inc. III-15
- Williams Advanced Materials III-15
- B. Market Analytics III-16
- Table 28: US Recent Past, Current & Future Analysis for Nanofilms by
Product Segment - Established Nanofilms and Emerging Nanofilms Independently
Analyzed with Annual Sales Figures in US$ Million for Years 2000 through 2010
(includes corresponding Graph/Chart) III-16
- Table 29: US Recent Past, Current & Future Analysis for Nanofilms by
End-Use Segment -Microelectronics, Information Storage, Medical Devices, and
Others Independently Analyzed with Annual Sales Figures in US$ Million for
Years 2000 through 2010 (includes corresponding Graph/Chart) III-16
- Table 30: US 10-Year Perspective for Nanofilms by Product Segment -
Percentage Breakdown of Dollar Sales for Established Nanofilms and Emerging
Nanofilms for Years 2000, 2006 & 2010 III-17
- Table 31: US 10-Year Perspective for Nanofilms by End-Use Segment -
Percentage Breakdown of Dollar Sales for Microelectronics, Information
Storage, Medical Devices, and Others for Years 2000, 2006 & 2010 (includes
corresponding Graph/Chart) III-17
2. Japan III-18
- A. Market Analysis III-18
- Current and Future Analysis III-18
- Strategic Corporate Development III-18
- Key Player III-19
- Nanofilm Technologies International Pte Ltd. III-19
- B. Market Analytics III-19
- Table 32: Japanese Recent Past, Current & Future Analysis for Nanofilms by
Product Segment -Established Nanofilms and Emerging Nanofilms Independently
Analyzed with Annual Sales Figures in US$ Million for Years 2000 through 2010
(includes corresponding Graph/Chart) III-19
- Table 33: Japanese Recent Past, Current & Future Analysis for Nanofilms by
End-Use Segment - Microelectronics, Information Storage, Medical Devices, and
Others Independently Analyzed with Annual Sales Figures in US$ Million for
Years 2000 through 2010 (includes corresponding Graph/Chart) III-20
- Table 34: Japanese 10-Year Perspective for Nanofilms by Product Segment -
Percentage Breakdown of Dollar Sales for Established Nanofilms and Emerging
Nanofilms for Years 2000, 2006 & 2010 III-20
- Table 35: Japanese 10-Year Perspective for Nanofilms by End-Use Segment -
Percentage Breakdown of Dollar Sales for Microelectronics, Information
Storage, Medical Devices, and Others for Years 2000, 2006 & 2010 (includes
corresponding Graph/Chart) III-21
3. Europe III-22
- A. Market Analysis III-22
- Current and Future Analysis III-22
- Strategic Corporate Developments III-22
- Key Player III-24
- Degussa Advanced Nanomaterials (Germany) III-24
- Innovative Materials Processing (IMP) Technologies Ltd (UK) III-24
- Nanogate AG (Germany) III-24
- B. Market Analytics III-25
- Table 36: European Recent Past, Current & Future Analysis for Nanofilms by
Product Segment -Established Nanofilms and Emerging Nanofilms Independently
Analyzed with Annual Sales Figures in US$ Million for Years 2000 through 2010
(includes corresponding Graph/Chart) III-25
- Table 37: European Recent Past, Current & Future Analysis for Nanofilms by
End-Use Segment - Microelectronics, Information Storage, Medical Devices, and
Others Independently Analyzed with Annual Sales Figures in US$ Million for
Years 2000 through 2010 (includes corresponding Graph/Chart) III-25
- Table 38: European 10-Year Perspective for Nanofilms by Product Segment -
Percentage Breakdown of Dollar Sales for Established Nanofilms and Emerging
Nanofilms for Years 2000, 2006 & 2010 III-26
- Table 39: European 10-Year Perspective for Nanofilms by End-Use Segment -
Percentage Breakdown of Dollar Sales for Microelectronics, Information
Storage, Medical Devices, and Others for Years 2000, 2006 & 2010 (includes
corresponding Graph/Chart) III-26
4. Rest of World III-27
- A. Market Analysis III-27
- Current and Future Analysis III-27
- Focus on Select Market III-27
- Korea III-27
- Atomic Layer Deposition (ALD) Technology III-27
- Technological Developments III-28
- Key Players III-28
- Advanced Nano Products Co. Ltd. (South Korea) III-28
- NanoMaterials Technology Pte Ltd. (Singapore) III-28
- B. Market Analytics III-29
- Table 40: Rest of World Recent Past, Current & Future Analysis for
Nanofilms by Product Segment - Established Nanofilms and Emerging Nanofilms
Independently Analyzed with Annual Sales Figures in US$ Million for Years 2000
through 2010 (includes corresponding Graph/Chart) III-29
- Table 41: Rest of World Recent Past, Current & Future Analysis for
Nanofilms by End-Use Segment - Microelectronics, Information Storage, Medical
Devices, and Others Independently Analyzed with Annual Sales Figures in US$
Million for Years 2000 through 2010 (includes corresponding Graph/Chart) III-29
- Table 42: Rest of World 10-Year Perspective for Nanofilms by Product
Segment - Percentage Breakdown of Dollar Sales for Established Nanofilms and
Emerging Nanofilms for Years 2000, 2006 & 2010 III-30
- Table 43: Rest of World 10-Year Perspective for Nanofilms by End-Use
Segment - Percentage Breakdown of Dollar Sales for Microelectronics,
Information Storage, Medical Devices, and Others for Years 2000, 2006 & 2010
(includes corresponding Graph/Chart) III-30
IV. COMPETITION
- 1. Advanced Diamond Technologies, Inc. (USA) IV-1
- 2. Advanced Nano Products Co, Ltd. (Korea) IV-2
- 3. Advanced Thin Film, Inc. (USA) IV-3
- 4. Altair Nanotechnologies, Inc. (USA) IV-4
- Table 44: First Quarter Sales Analysis: 2005-2006(In US$ million) IV-5
- Table 45: First Quarter Sales Analysis by Segment:2005-2006 (In US$
million) IV-5
- Table 46: First Quarter Sales Analysis by Geographic Region: 2005-2006 (In
US$ million) IV-6
- Table 47: Annual Sales Analysis: 2004-2005(In US$ million) IV-6
- Table 48: Annual Sales Analysis by Quarter:2004-2005 (In US$ million) IV-6
- Table 49: Annual Sales Analysis by Segment:2004-2005 (In US$ million) IV-6
- Table 50: Annual Sales Analysis by Geographic Region: 2004-2005 (In US$
million) IV-6
- 5. Applied Materials, Inc. (USA) IV-9
- Table 51: Nine Months Sales Analysis: 2005-2006(Nine Months Ended, July)
(In US$ million) IV-10
- Table 52: Nine Months Sales Analysis by Quarter:2005-2006 (In US$ million)
IV-10
- Table 53: Nine Months Sales Analysis by Geographic Region: 2005-2006 (In
US$ million) IV-10
- Table 54: Annual Sales Analysis: 2003-2005(In US$ million) IV-10
- Table 55: Annual Sales Analysis by Quarter:2004-2005 (In US$ million) IV-11
- Table 56: Annual Sales Analysis by GeographicRegion: 2004-2005 (In US$
million) IV-11
- 6. Arrowhead Research Corporation (USA) IV-15
- Table 57: Nine Months Sales Analysis: 2005-2006(Nine Months Ended, June)
(In US$ million) IV-15
- 7. BCC LLC (Bulgaria) IV-17
- 8. Biophan Technologies, Inc. (USA) IV-18
- 9. Cambridge Nanotech, Inc. (USA) IV-22
- 10. DCD Technologies (USA) IV-23
- 11. Degussa Advanced Nanomaterials (Germany) IV-23
- 12. Denton Vacuum LLC (USA) IV-24
- 13. Evident Technologies (USA) IV-26
- 14. Filgen, Inc. (Japan) IV-27
- 15. Filmetrics, Inc. (USA) IV-28
- 16. General Nanotechnology LLC (USA) IV-29
- 17. Innovative Materials Processing (Imp) TechnologiesLimited (UK) IV-30
- 18. Konarka Technologies, Inc. (USA) IV-31
- 19. Leybold Optics USA, Inc. (USA) IV-32
- 20. LOT-Oriel GmbH & Co., KG. (Germany) IV-33
- 21. MAT-VAC Technology (USA) IV-34
- 22. Metatechnica (USA) IV-38
- 23. MicroChem Corporation (USA) IV-38
- 24. MIV Therapeutics, Inc. (Canada) IV-39
- 25. MTS Nano Instruments (USA) IV-41
- 26. Nanergy, Inc. (USA) IV-42
- 27. Nanofilm Co., Ltd. (Korea) IV-42
- 28. Nanofilm Company (USA) IV-43
- 29. Nanofilm Technologies GmbH (Germany) IV-45
- 30. Nanofilm Technologies International Pte., Ltd.(Singapore) IV-46
- 31. Nanogate AG (Germany) IV-47
- 32. Nanogram Corporation (USA) IV-49
- 33. Nano-Lane (France) IV-51
- 34. NanoMaterials Technology Pte., Ltd. (Singapore) IV-51
- 35. Nanometrics, Inc. (USA) IV-52
- Table 58: Half Yearly Sales Analysis:2005-2006 (H1) (In US$ million) IV-53
- Table 59: Half Yearly Sales Analysis by GeographicRegion: 2005-2006 (H1)
(In US$ million) IV-53
- Table 60: Annual Sales Analysis: 2003-2005(In US$ million) IV-53
- Table 61: Annual Sales Analysis by GeographicRegion: 2004-2005 (In US$
million) IV-53
- 36. Nanophase Technologies Corporation (USA) IV-56
- Table 62: Half Yearly Sales Analysis: 2005-2006 (H1)(In US$ million) IV-57
- Table 63: Annual Sales Analysis: 2004-2005(In US$ million) IV-57
- 37. Nissho Electronics Corporation (Japan) IV-60
- 38. NovaCentrix (USA) IV-61
- 39. Ntera, Inc. (USA) IV-63
- 40. OCT USA, Inc. (USA) IV-63
- 41. Osmic, Inc. (USA) IV-64
- 42. Plasmachem GmbH (Germany) IV-67
- 43. Sepax Technologies, Inc. (USA) IV-68
- 44. Tethis Srl (Italy) IV-70
- 45. Vesta Technology, Inc. (USA) IV-71
- 46. Williams Advanced Materials (USA) IV-73
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