奈米科技：實際的市場評價

奈米科技：實際的市場評價 是由出版商BCC Research在2010年07月所出版的。 這份英文市場調查報告書包含280 Pages 價格從美金4850起跳。

簡介

於2009年的全球市場中，奈米科技的收益達到了116億7130萬美金。預估在2015年之前，可成長至超越260億美金的規模。

本報告書提供奈米科技目前及潛在性的應用介紹，包括2009年至2015年全球奈米科技市場的動態、影響奈米科技長期發展的因素，以及市佔率與產業結構等相關調查，內容概要摘記如下。

第1章　導論

第2章　摘要

第3章　概要：奈米科技潛在的終端用戶與應用

• 奈米科技的概要
  • 定義
  • 截至目前的歷史
• 奈米科技的應用
  • 奈米材料
  • 奈米工具
  • 奈米設備

第4章　專利分析

第5章　奈米科技產品的全球市場

• 總市場的規模
• 各種技術類別的奈米科技市場
  • 奈米材料
  • 奈米工具
  • 奈米設備
• 各種終端用戶分類的奈米科技

第6章　影響奈米科技市場的開發

• 經濟動態
• 創業投資商的態度
• 奈米材料對於環境/健康/安全等產生的影響
• 政治/法規/規範的動態趨勢
• 長期的市場預測

第7章　奈米科技的產業結構

• 企業數與規模
• 市場佔有率

第8章　企業簡介

目錄

Abstract

THIS REPORT CONTAINS

• Total worldwide sales revenues for nanotechnology were $11,671.3 million in 2009, and are expected to increase to more than $26000 Million in 2015, a compound annual growth rate (CAGR) of 11.1%.
• The largest nanotechnology segments in 2009 were Nanomaterials. All Nanomaterials will increase from $9,027.2 million in 2009 to nearly $19,621.7 million in 2015, a compound annual growth rate (CAGR) of 14.7%.
• Sales of Nanotools will experience high growth. This market segment was worth $2,613.1 million in 2009 and will increase at a 3.3% compound annual growth rate (CAGR) to reach a value of $6,812.5 million in 2015.
• Sales of Nanodevices will experience moderate growth. This market segment was worth $31 million in 2009 and will increase at a 45.9% compound annual growth rate (CAGR) to reach a value of $233.7 million in 2015.

INTRODUCTION

The previous (2008) edition of this report began by noting that the hype, both positive and negative, that has surrounded nanotechnology appears to be growing less extreme: today, rosy projections of a �gtrillion-dollar�h nanotechnology market in 10 years or apocalyptic predictions about a �gFaustian bargain�h or a �gPandora' s box�h[1] are heard less often.

However, while the hype may have slowed somewhat, it is still there. Growing public awareness combined with the complex, diverse nature of the technologies that are commonly grouped together under the heading of nanotechnology virtually invites misunderstanding, if not actual misrepresentation.

For example, in 2010, a respected journalist wrote a series of stories for AOL News with the title, �gThe Nanotech Gamble: Bold Science, Big Money, Growing Risks,�h that faulted the U.S. government' s performance in identifying and protecting the public against alleged health hazards posed by nanotechnology. One interviewee asked rhetorically, "How long should the public have to wait before the government takes protective action? Must the bodies stack up first?"

So stinging was the piece to the National Nanotechnology Initiative (NNI) and the National Nanotechnology Coordination Office (NNCO) that the director of the NNCO felt compelled to issue a formal rebuttal. According to the rebuttal, the author �gtakes an alarmist perspective,�h �guses irrelevant examples,�h and fails to balance the risks against the benefits of nanotechnology. As some observers have noted, the debate over the AOL News article (which was still simmering when this report was written) is at best a distraction from the research that needs to be done.

Business, academia, the media all have an incentive to attempt to cash in on nanotechnology. Various manufacturers have tacked �gnano�h onto their products and processes, whether or not they deal in nano-size elements, in an attempt to boost sales. Companies that have nothing to do with nanotechnology have �gnano�h in their names to make them sound more technologically advanced than the competition. Some academic researchers worry that the nano buzzword is being misused to bring in research dollars for dubious technologies and applications, at the expense of legitimate research.

Hype inevitably carries with it the risk of a backlash, because it can create unrealistic expectations for nanotechnology. Then, when expectations are not met, people tend to withdraw or worse turn oppositional. A blog entry on The Bespoke Investment Group' s website observed that:

• �gBack in the ' good ' ole days' of the mid-2000s, investors were riding a bull market wave and looking for ' the next big thing.' One of those ' next big things' was nanotechnology. Ever since the collapse began in 2007, however, the nanotech craze seems all but forgotten. We can' t remember the last time we read or watched something about nanotech. �cStocks and ETFs relating to nanotech have also lost investor interest.�h

As a result, legitimate nanotechnology products and applications are hurt along with the rest, as funding and markets dry up. The dot.com boom and bust provides a cautionary example of the dangers of hype, but nanotechnology has a more tangible nature because it is a set of technologies. This report takes a realistic look at the nanotechnology field and tries to provide a road map to the technologies and applications that are most likely to be commercialized in the next 5 years.

STUDY BACKGROUND

While it appears inevitable that nanotechnology will have a broad and fundamental impact on many sectors of the U.S. economy, various technical, marketing and other hurdles need to be overcome before nanotechnology fulfills this promise. These challenges and differences of opinion regarding commercial applications are reflected in the widely diverging estimates of the U.S. and global nanotechnology markets.

Estimates of the global nanotechnology market in 2010 range from about $15.7 billion (the figure used in this report) to $1 trillion. By 2015, the market may be worth more than $2.4 trillion, according to different analysts. These differences reflect not only different analytical methods and assumptions, but also different definitions of the nanotechnology market (e.g., whether to include decades-old technologies such as carbon black rubber reinforcers and photographic silver, or whether to base the market value on nanotechnology inputs alone, as opposed to the total value of products that incorporate nanotechnology).

Perhaps as a reflection of the difficulty of quantifying the market for nanotechnologies, some analysts downplay the commercial dimensions of the nanotechnology market, and focus instead on the supply side, i.e., the development of new nanoscale technologies and applications. These analysts have made valuable contributions, raising investors' awareness of and interest in nanotechnologies.

However, by itself, the work of these analysts does not provide sufficient information in order to guide corporate or individual investment decisions. Investors require additional data, such as the size of specific nanotechnology markets, prices, and competition, as well as potential regulation.

STUDY GOALS AND OBJECTIVES

The goal of this report is to provide investors and others with information on the commercial potential of various nanotechnologies and to complement the growing body of technical information. Specific objectives include identifying segments of the nanotechnology market with the greatest commercial potential in the near to mid-term (2010 through 2015), projecting future demand in these segments, and evaluating the challenges that must be overcome for each segment to realize its potential in order to estimate the probability of successful commercialization.

INTENDED AUDIENCE

The report is especially intended for entrepreneurs, investors, venture capitalists, and other readers with a need to know where the nanotechnology market is headed in the next 5 years. Other readers who should find the report particularly valuable include nanotechnology marketing executives and government officials associated with the National Nanotechnology Initiative and other state-level programs that promote the development of the nanotechnology industry. The report' s findings and conclusions should also be of interest to the broader nanotechnology community.

SCOPE OF REPORT

The global market for nanotechnology applications will be addressed. Nanotechnology applications are defined comprehensively as the creation and utilization of materials, devices, and systems through the manipulation of matter at scales of less than 100 nanometers. The study covers nanomaterials (nanoparticles, nanotubes, nanostructured materials, and nanocomposites), nanotools (nanolithography tools and scanning probe microscopes), and nanodevices (nanosensors and nanoelectronics).

A pragmatic decision was made to exclude certain types of materials and devices from the report that technically fit the definition of nanotechnology. These exceptions include carbon black nanoparticles used to reinforce tires and other rubber products; photographic silver and dye nanoparticles; and activated carbon used for water filtration. These materials were excluded because they have been used for decades, long before the concept of nanotechnology was born, and their huge volumes (especially carbon black and activated carbon) would tend to swamp the newer nanomaterials in the analysis.

Nanoscale semiconductors are also excluded from the study, although the tools used to create them are included. Unlike carbon black and activated carbon, nanoscale semiconductors are a relatively new development. However, they have been analyzed comprehensively elsewhere, and like carbon black and activated carbon, would tend to overwhelm other nanotechnologies by their sheer volume in the out-years towards 2015.

The study format includes the following major elements:

• Executive summary
• Definitions
• Milestones in the development of nanotechnology
• Current and potential nanotechnology applications
• Applications and end users with the greatest commercial potential through 2015
• Global nanotechnology market trends, 2009 through 2015
• Factors that will influence the long-term development of nanotechnology
• Market shares and industry structure.

METHODOLOGY AND INFORMATION SOURCES

Projecting the market for emerging technologies, such as most nanotechnology applications whose commercial potential has not yet been proven, is a challenging task, which may help to explain why many analysts focus on supply-side technology assessments. A multiphase approach was used in the preparation of this report to identify the nanotechnology applications with the greatest commercial potential and quantify the market for these applications, as described below.

In the first phase of the analysis, BCC Research identifies a long list of potential nanotechnology applications (including applications that are still under development) and mapped them against potential end-user industries, such as information technology/electronics, biotechnology, and health care. In the second phase, BCC eliminates those nanotechnology applications that appear to have little likelihood of making it into commercial production in the next 5 years. This was accomplished through a literature review and interviews with industry sources. The result of phase two is a short list of applications and end-user industries with the greatest near- to mid-term commercial potential.

The third phase focuses on quantifying the potential broader market for each short-listed nanotechnology application and identifying the main prerequisites for commercial success. Various methodologies and data sources were used to develop the projections, including trend-line projections, input-output analysis, and estimates of future demand from industry sources.

Table of Contents

Chapter- 1: INTRODUCTION -- Complimentary 6

• INTRODUCTION 1
• STUDY BACKGROUND 2
• STUDY GOALS AND OBJECTIVES 3
• INTENDED AUDIENCE 3
• SCOPE OF REPORT 3
• METHODOLOGY AND INFORMATION SOURCES 4
• ANALYST CREDENTIALS 5
• RELATED BCC RESEARCH 5
• BCC ONLINE SERVICES 6
• DISCLAIMER 6

Chapter-2: EXECUTIVE SUMMARY 2

• SUMMARY TABLE GLOBAL NANOTECHNOLOGY MARKET, THROUGH 2015 ($ MILLIONS) 7
• SUMMARY FIGURE GLOBAL NANOTECHNOLOGY MARKET, 2009-2015 ($ MILLIONS) 8

Chapter-3: OVERVIEW: POTENTIAL NANOTECHNOLOGY END USERS AND APPLICATIONS 91

• GENERAL DESCRIPTION OF NANOTECHNOLOGY 9
• DEFINITION 9
• BRIEF HISTORY OF NANOTECHNOLOGY 9
• Brief History of Nanotechnology (Continued) 10
• NANOTECHNOLOGY APPLICATIONS 11
• NANOMATERIALS 12
• TABLE 1 MAJOR CATEGORIES OF NANOMATERIALS 13
• Solid Nanoparticles 13
• General Description 13
• Fabrication 14
• Gas Phase Processing 14
• Gas Condensation with Thermal Evaporation 14
• Vacuum Evaporation on Running Liquids 14
• Plasma Synthesis 15
• Combustion Synthesis 15
• Wet Phase Processing 15
• Chemical Precipitation 16
• Hydrothermal Processing 16
• Sol-Gel Processing 16
• Mechanical Processing 17
• High-Energy Ball Milling 17
• Mechanicochemical Synthesis 17
• Types of Nanoparticles and Their Applications 17
• Established Commercial Applications 17
• TABLE 2 ESTABLISHED COMMERCIAL NANOPARTICLE APPLICATIONS, 2010 18
• TABLE 2 (CONTINUED) 19
• Inks and Pigments 19
• Coatings and Adhesives 20
• Chemical-Mechanical Polishing (CMP) Compounds 21
• Sunscreens and Other Personal Care Products 21
• Other UV Protection Products 22
• Synthetic Bone and Tooth Enamel 22
• Ferrofluids 23
• Drug Delivery Vehicles 23
• Drug Delivery �c (Continued) 24
• Fabrics and Fabric Treatments 25
• Biomedical Markers and Detection Aids 25
• Biomedical �c (Continued) 26
• Transfection Reagents 27
• Dietary Supplements 27
• Filtration Systems 28
• Magnetic Separations 28
• MRI Contrast Agents 29
• Antioxidants 29
• Surface Disinfectants 30
• Diesel Fuel Additives 30
• Fuel and Explosive Additives 30
• Hazardous Chemical Neutralizers 31
• Diode Lasers 31
• Petroleum Refining 32
• Multilayer Ceramic Capacitors 32
• Printed Electronics 33
• Rechargeable Lithium Ion Batteries 34
• Emerging Nanoparticle Applications 35
• TABLE 3 DEVELOPMENTAL NANOPARTICLE APPLICATIONS, 2010 35
• TABLE 3 (CONTINUED) 36
• Molecular Imaging Agents 36
• Proteomics Applications 36
• Light-emitting Diodes (LEDs) 37
• Flat-panel Displays 38
• Digital Image Sensors 38
• Electrochromic Displays 39
• Hollow Nanoparticles 39
• General Description 39
• Fabrication 40
• Arc Discharge 40
• Laser Ablation 40
• Chemical Vapor Deposition 40
• Flame Synthesis 40
• Hollow Nanoparticle Applications 41
• Established Commercial Applications 41
• Scanning Microscope Tips 41
• Nanosensors 41
• Developmental Applications 42
• TABLE 4 DEVELOPMENTAL NANOTUBE APPLICATIONS, 2009 42
• Field Emission Devices 42
• Drug Delivery Systems 43
• Drug Delivery �c (Continued) 44
• Semiconductors 45
• Printed Electronics 46
• Computer Memory 46
• Hydrogen 47
• Conductive Fibers 48
• Ultrathin Batteries 48
• Nanoscale Thin Films and Coatings 49
• General Description 49
• Fabrication 49
• Nanoparticulate Precursor Methods 49
• Dip Coating 50
• Spin Coating 50
• Electrophoretic Deposition 50
• Thermal Spray Coating 51
• Pulsed Laser Deposition 51
• Direct Production of Nanoscale Thin Film Coatings 51
• Electrodeposition 51
• Amorphous Crystallization 52
• Nanoscale Thin Film Applications 52
• Established Commercial Applications 53
• TABLE 5 COMMERCIAL NANOSCALE THIN FILM APPLICATIONS, 2010 53
• Catalytic Converters 53
• Fuel Cells 54
• Flat-panel Displays 55
• Nanoporous Membranes 56
• Eyeglass and Other Lens Coatings 57
• Antimicrobial Dressings 57
• Optical Recording Media 57
• Hard Disk Media and Heads 58
• Magnetic Recording Tapes 58
• Optical Fiber Cladding 59
• Photocatalytic Coatings 59
• Low-k Dielectric Coatings 60
• Anti-Scratch/Anti-Stick Coatings 60
• Electroconductive Coatings 61
• Thermal Spray Coatings 62
• Photovoltaics 62
• Photovoltaics (Continued) 63
• Developmental Applications 64
• TABLE 6 DEVELOPMENTAL NANOSCALE THIN FILM APPLICATIONS, 2010 64
• Transparent Electrodes 64
• MRI-safe coatings for Medical Devices 64
• Biocompatible Coatings for Medical Devices and Implants 65
• Lighting 66
• Nanostructured Monolithics 67
• General Description 67
• Fabrication 68
• Consolidation of Nanoparticles into Monolithics 68
• Severe Plastic Deformation 69
• Aerogels 69
• Nanostructured Monolithic Applications 69
• Established Commercial Applications 69
• TABLE 7 COMMERCIAL NANOSTRUCTURED MONOLITHIC APPLICATIONS, 2010 69
• High Pressure Discharge Lamp Tubes 70
• Building Insulation 70
• Catalysts 70
• Fuel Cell Membranes 71
• Energy Recovery Ventilators 71
• Water Filtration Membranes 72
• Developmental Applications 72
• TABLE 8 DEVELOPMENTAL NANOSTRUCTURED MONOLITHIC APPLICATIONS, 2010 72
• Medical Implants 73
• Electrochemical Devices 73
• Nanocomposites 74
• General Description 74
• Fabrication 75
• Clay/Polymer Nanocomposites 75
• Carbon Nanotube Composites 75
• Oriented Nanocomposite Extrusion Process 75
• Layered Fabrication 76
• nanocomposite Fibers 76
• Nanocomposite Applications 77
• Established Commercial Applications 77
• TABLE 9 COMMERCIAL NANOCOMPOSITE APPLICATIONS, 2010 77
• Automotive Parts 78
• Packaging 78
• Wire and Cable Sheathing 79
• ESD Applications 79
• Electrical and Electronic Devices 79
• Sporting Goods 80
• Dental Adhesives 81
• Electronics Shielding 81
• Hydrophobic/Oleophobic Nanocomposites- 82
• Developmental Nanocomposite Applications 83
• TABLE 10 DEVELOPMENTAL NANOCOMPOSITE APPLICATIONS, 2010 83
• Nanocomposite Fuel Cell Membranes 83
• Tungsten Carbide Tools 84
• Protective Clothing 85
• Channel Add/Drop Filters 85
• Optical Switches 85
• Optical Amplifiers 86
• Bone Replacements and Cements 87
• Water Desalination 88
• NANOTOOLS 88
• General Description 88
• Nanotool Applications 88
• Established Commercial Applications 88
• TABLE 11 COMMERCIAL NANOTOOL APPLICATIONS, 2010 89
• Nanomanipulators 89
• Near-Field Optics 90
• Nanomachining Tools 91
• Advanced Optical Nanolithography Tools 91
• TABLE 12 ITRS TECHNOLOGY NODES (MINIMUM LINE WIDTH/YEAR) 92
• Developmental Applications 93
• Next-Generation Nanolithography Tools 93
• NANODEVICES 94
• General Description 94
• Nanodevice Applications 95
• Established Commercial Applications 95
• TABLE 13 COMMERCIAL NANODEVICE APPLICATIONS, 2010 95
• Nano-High-performance Liquid Chromatography 96
• Nanosensors 96
• Nanosensors (Continued) 97
• Drug Production and Mixing Systems 98
• Developmental Nanodevice Applications 98
• TABLE 14 DEVELOPMENTAL NANODEVICE APPLICATIONS, 2010 98
• Holographic Memory 98
• Holographic Memory (Continued) 99

Chapter-4: PATENT ANALYSIS 2

• TOTAL MARKET SIZE 102
• TABLE 17 GLOBAL MARKET FOR NANOTECHNOLOGY PRODUCTS, THROUGH 2015 ($ MILLIONS) 102
• FIGURE 1 GLOBAL MARKETS FOR NANOTECHNOLOGY PRODUCTS, 2009 THROUGH 2015 ($ MILLIONS) 102
• NANOTECHNOLOGY MARKET BY TYPE OF TECHNOLOGY 103
• TABLE 18 GLOBAL NANOTECHNOLOGY MARKET BY TYPE, THROUGH 2015 ($ MILLIONS) 103
• FIGURE 2 GLOBAL NANOTECHNOLOGY MARKET SHARES, 2009 VS 2015 (%) 103
• FIGURE 2 (CONTINUED) 104
• NANOMATERIALS 104
• Total Market 104
• TABLE 19 GLOBAL NANOMATERIALS SALES BY TYPE, THROUGH 2015 ($ MILLIONS) 105
• FIGURE 3 GLOBAL NANOMATERIALS MARKET SHARES, 2009 VS. 2015 (% OF TOTAL NANOMATERIALS SALES) 105
• FIGURE 3 (CONTINUED) 106
• Nanomaterials Sales by Type 107
• Solid Nanoparticles 107
• TABLE 20 GLOBAL SOLID NANOPARTICLE MARKET BY CURRENT STAGE OF COMMERCIALIZATION, THROUGH 2015 ($ MILLIONS) 107
• Established Commercial Nanoparticle Applications 107
• TABLE 21 GLOBAL MARKET FOR ESTABLISHED COMMERCIAL NANOPARTICLE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 108
• Coatings and Adhesives 108
• TABLE 22 GLOBAL CONSUMPTION OF PGM POLYMER NANOPARTICLES USED IN COATINGS AND ADHESIVES, THROUGH 2015 ($ MILLIONS) 109
• Ultrafine Polishing Compounds 109
• TABLE 23 GLOBAL TREND IN GLOBAL SEMICONDUCTOR SALES, THROUGH 2015 ($ BILLION) 110
• TABLE 24 GLOBAL CONSUMPTION OF SILICA AND ALUMINA NANOPARTICLES USED IN CMP COMPOUNDS, THROUGH 2015 ($ MILLIONS) 110
• UV Absorbers 110
• TABLE 25 GLOBAL SUNSCREEN SALES, THROUGH 2015 ($ BILLION) 111
• TABLE 26 GLOBAL CONSUMPTION OF TI02 AND ZNO NANOPARTICLES USED IN SUNSCREENS AND OTHER PERSONAL CARE PRODUCTS, THROUGH 2015 ($ MILLIONS) 111
• Synthetic Bone and Tooth Enamel 112
• TABLE 27 GLOBAL MARKET FOR NANOPARTICLE-BASED SYNTHETIC BONE AND TOOTH ENAMELS, THROUGH 2015 ($ MILLIONS) 112
• Ferrofluids 113
• TABLE 28 GLOBAL PRODUCTION OF ELECTRONIC DEVICES INCORPORATING FERROFLUIDS, THROUGH 2015 (MILLION UNITS) 113
• TABLE 29 GLOBAL MARKET FOR IRON OXIDE NANOPARTICLES USED IN FERROFLUIDS, THROUGH 2015 ($ MILLIONS) 113
• Pharmaceuticals 114
• TABLE 30 GLOBAL MARKET FOR NANOPARTICLES USED TO DELIVER DRUGS, THROUGH 2015 ($ MILLIONS) 114
• Fabric Treatment 115
• TABLE 31 GLOBAL MARKET FOR POLYMER NANOPARTICLES USED IN FABRIC TREATMENTS, THROUGH 2015 ($ MILLIONS) 116
• Biomedical Markers and Detection Aids 116
• FIGURE 4 NANOPARTICLES USED IN BIOLOGICAL MARKER AND DETECTION AID APPLICATIONS, 2009 (% OF TOTAL SALES) 116
• FIGURE 4 (CONTINUED) 117
• TABLE 32 GLOBAL MARKET FOR NANOPARTICLES USED AS BIOMEDICAL MARKERS AND DETECTION AIDS, THROUGH 2015 ($ MILLIONS) 118
• Transfection Reagents 118
• TABLE 33 GLOBAL MARKET FOR DENDRIMERS USED IN TRANSFECTION REAGENTS, THROUGH 2015 ($ MILLIONS) 119
• Dietary Supplements 119
• TABLE 34 GLOBAL MARKET FOR SILVER AND SILICA NANOPARTICLES USED IN DIETARY SUPPLEMENTS, THROUGH 2015 ($ MILLIONS) 120
• Filtration Systems 120
• TABLE 35 GLOBAL MARKET FOR NANOPARTICULATE ALUMINA USED IN ULTRAFILTRATION APPLICATIONS, THROUGH 2015 ($ MILLIONS) 120
• Magnetic Separations 120
• TABLE 36 GLOBAL MARKET FOR NANOPARTICULATE IRON OXIDE USED IN BIOMAGNETIC SEPARATION APPLICATIONS, THROUGH 2015 ($ MILLIONS) 121
• MRI Contrast Agents 121
• TABLE 37 GLOBAL MARKET FOR NANOPARTICULATE IRON OXIDE USED IN MRI CONTRAST MEDIA, THROUGH 2015 ($ MILLIONS) 122
• Surface Disinfectants 122
• TABLE 38 GLOBAL MARKET FOR OIL NANOSPHERES USED IN SURFACE DISINFECTANTS, THROUGH 2015 ($ MILLIONS) 122
• Diesel Fuel Additives 122
• TABLE 39 GLOBAL MARKET FOR NANOPARTICULATE CERIUM OXIDE USED IN DIESEL FUEL ADDITIVES, THROUGH 2015 ($ MILLIONS) 123
• Fuel and Explosive Additives 123
• TABLE 40 GLOBAL MARKET FOR NANOPARTICULATE ALUMINA AND IRON OXIDE FOR FUEL AND EXPLOSIVE ADDITIVES, THROUGH 2015 ($ MILLIONS) 124
• Diode Lasers 124
• TABLE 41 GLOBAL MARKET FOR QUANTUM DOTS USED IN DIODE LASERS, THROUGH 2015 ($ MILLIONS) 124
• Photovoltaics 125
• TABLE 42 GLOBAL MARKET FOR NANOPARTICLES USED IN PHOTOVOLTAICS, THROUGH 2015 ($ MILLIONS) 125
• Refinery Catalysts 125
• TABLE 43 GLOBAL MARKET FOR NANOPARTICLES USED IN PETROLEUM REFINING, THROUGH 2015 ($MILLION) 126
• Multi-Layer Ceramic Capacitors 126
• TABLE 44 GLOBAL CONSUMPTION OF NANOPARTICLES IN MULTI-LAYER CERAMIC CAPACITOR APPLICATIONS, THROUGH 2015 ($ MILLIONS) 126
• Printed Electronics 127
• TABLE 45 GLOBAL CONSUMPTION OF SILVER NANOPARTICLES IN ELECTRONIC PRINTING INKS THROUGH 2015 ($ MILLIONS) 127
• Rechargeable Batteries 128
• TABLE 46 GLOBAL CONSUMPTION OF NANOPARTICLES USED IN RECHARGEABLE LITHIUM ION BATTERIES, THROUGH 2015 ($ MILLIONS) 128
• Developmental Applications 129
• TABLE 47 GLOBAL MARKET FOR COMMERCIALLY PROMISING NANOPARTICLE APPLICATIONS STILL UNDER DEVELOPMENT, THROUGH 2015 ($ MILLIONS) 129
• Molecular Imaging Agents 129
• TABLE 48 GLOBAL CONSUMPTION OF APTAMERS FOR MOLECULAR IMAGING APPLICATIONS, THROUGH 2015 ($ MILLIONS) 130
• Proteomics 130
• TABLE 49 GLOBAL CONSUMPTION OF APTAMERS FOR PROTEOMICS APPLICATIONS, THROUGH 2015 ($ MILLIONS) 131
• Light Emitting Diodes 131
• TABLE 50 GLOBAL CONSUMPTION OF NANOPARTICLES IN LED FABRICATION, THROUGH 2015 ($ MILLIONS) 131
• Flat-panel Displays 132
• TABLE 51 GLOBAL CONSUMPTION OF NANOPARTICLES IN FLAT PANEL DISPLAYS, THROUGH 2015 ($ MILLIONS) 132
• Digital Image Sensors 132
• TABLE 52 GLOBAL CONSUMPTION OF QUANTUM DOTS IN DIGITAL IMAGE SENSORS, THROUGH 2015 ($ MILLIONS) 133
• Electrochromic Displays 133
• TABLE 53 GLOBAL CONSUMPTION OF ELECTROCHROMIC DISPLAY MATERIALS, THROUGH 2015 ($ MILLIONS) 133
• Nanotubes and Other Hollow Nanoparticles 134
• TABLE 54 GLOBAL MARKET FOR NANOTUBES AND OTHER HOLLOW NANOPARTICLES, THROUGH 2015 ($ MILLIONS) 134
• Established Commercial Nanotube Applications 134
• TABLE 55 MARKET FOR ESTABLISHED CARBON NANOTUBE APPLICATIONS*, THROUGH 2015 ($ MILLIONS) 135
• Scanning Microscope Tips 135
• Nanosensors 135
• TABLE 56 GLOBAL CONSUMPTION OF CARBON NANOTUBE SENSOR ELEMENTS, THROUGH 2015 ($ MILLIONS) 136
• Developmental Applications 136
• TABLE 57 MARKET FOR COMMERCIALLY PROMISING NANOTUBE APPLICATIONS STILL UNDER DEVELOPMENT, THROUGH 2016 ($ MILLIONS) 136
• Field Emission Devices 136
• TABLE 58 GLOBAL CONSUMPTION OF CARBON NANOTUBE MEDICAL X-RAY TUBES, THROUGH 2015 ($ MILLIONS) 137
• Semiconductors 138
• Printed Electronics 138
• TABLE 59 GLOBAL CONSUMPTION OF CARBON NANOTUBE INKS IN PRINTED ELECTRONICS, THROUGH 2015 ($ MILLIONS) 138
• Hydrogen Storage 138
• Conductive Fibers 139
• TABLE 60 GLOBAL CONSUMPTION OF CARBON NANOTUBE CONDUCTIVE FIBERS THROUGH 2015 ($ MILLIONS) 139
• Ultrathin Batteries 140
• TABLE 61 GLOBAL CONSUMPTION OF CARBON NANOTUBE ELECTRODE MATERIALS IN ULTRATHIN �gPAPER BATTERIES�h, THROUGH 2015 ($ MILLIONS) 140
• Nanoscale Thin Films 140
• TABLE 62 GLOBAL NANOSCALE THIN FILM MARKET, THROUGH 2015 ($ MILLIONS) 141
• Established Commercial Thin Film Applications 141
• TABLE 63 GLOBAL MARKET FOR ESTABLISHED COMMERCIAL THIN FILM APPLICATIONS, THROUGH 2015 ($ MILLIONS) 141
• Catalytic Converters 142
• TABLE 64 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN CATALYTIC CONVERTERS, THROUGH 2015 ($ MILLIONS) 142
• Fuel Cells 143
• TABLE 65 GLOBAL FUEL CELL SALES BY TECHNOLOGY TYPE, THROUGH 2015 ($ MILLIONS) 143
• TABLE 66 FUEL CELL CONSUMPTION OF PLATINUM THIN FILM CATALYSTS, THROUGH 2015 ($ MILLION/%) 144
• Flat Panel Displays 144
• TABLE 67 CONSUMPTION OF OLED THIN FILM MATERIALS, THROUGH 2015 ($ MILLION/%) 145
• Nanoporous Membranes 145
• TABLE 68 GLOBAL CONSUMPTION OF NANOPOROUS THIN FILM MEMBRANES THROUGH 2015 ($ MILLIONS) 146
• Eyeglass and Other Lens Coatings 146
• TABLE 69 GLOBAL EYEGLASS COATING SALES, THROUGH 2015 ($ MILLIONS) 147
• TABLE 70 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN EYEGLASS AND OTHER OPTICAL COATINGS, THROUGH 2015 ($ MILLIONS) 147
• Antimicrobial Dressings 147
• TABLE 71 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN ANTIMICROBIAL DRESSINGS, THROUGH 2015 ($ MILLIONS) 148
• Optical Recording Media 148
• TABLE 72 GLOBAL SHIPMENTS OF AUDIO CDS AND VIDEO DVDS, THROUGH 2015 (MILLION UNITS) 149
• TABLE 73 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN OPTIICAL RECORDING MEDIA COATINGS, THROUGH 2015 ($ MILLIONS) 149
• Hard Disk Media and Heads 149
• TABLE 74 GLOBAL HARD DISK MEDIA PRODUCTION AND THIN FILM MATERIALS CONSUMPTION, THROUGH 2015 (MILLION UNITS/$ MILLION) 150
• TABLE 75 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN HARD DISK MEDIA AND RECORDING HEADS, THROUGH 2015 ($ MILLIONS) 150
• Magnetic Recording Media 150
• TABLE 76 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN MAGNETIC RECORDING MEDIA, THROUGH 2015 ($ MILLIONS) 151
• Fiber Optic Cladding 151
• TABLE 77 GLOBAL OUTPUT OF FIBER OPTIC CABLE, THROUGH 2015 (MILLION KM) 152
• TABLE 78 GLOBAL CONSUMPTION OF SILICA NANOMATERIALS FOR FIBER OPTIC CABLE, THROUGH 2015 ($ MILLIONS) 152
• Photocatalytic Coatings 152
• TABLE 79 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN PHOTOCATALYTIC COATINGS, THROUGH 2015 ($ MILLIONS) 153
• Anti-Scratch Coatings 153
• TABLE 80 GLOBAL CONSUMPTION OF ALUMINA AND OTHER METAL OXIDE NANOPARTICLES USED IN SCRATCH-RESISTANT COATINGS, THROUGH 2015 ($ MILLIONS) 154
• Low-k Dielectric Films 154
• TABLE 81 GLOBAL CONSUMPTION OF NANOSCALE LOW-K DIELECTRIC FILM MATERIALS, THROUGH 2015 ($ MILLIONS) 154
• Electroconductive Coatings 155
• TABLE 82 GLOBAL CONSUMPTION OF NANOSCALE MATERIALS FOR ELECTROCONDUCTIVE COATINGS, THROUGH 2015 ($ MILLIONS) 155
• Thermal Spray Coatings 155
• TABLE 83 GLOBAL CONSUMPTION OF NANOSCALE THERMAL SPRAY COATING MATERIALS, THROUGH 2015 ($ MILLIONS) 156
• Photovoltaics 156
• TABLE 84 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN PHOTOVOLTAICS, THROUGH 2015 ($ MILLIONS) 156
• Developmental Thin Film Applications 157
• TABLE 85 GLOBAL MARKET FOR COMMERCIALLY PROMISING NANOTHIN FILM APPLICATIONS STILL UNDER DEVELOPMENT, THROUGH 2015 ($ MILLIONS) 157
• Transparent Electrodes 158
• TABLE 86 GLOBAL CONSUMPTION OF NANOTUBES USED IN FIELD EMISSION DISPLAYS, THROUGH 2015 ($ MILLIONS) 158
• MRI-Safe Coatings 158
• Biocompatible Coatings 159
• OLED Lighting 159
• TABLE 87 GLOBAL CONSUMPTION OF OLED LIGHTING, THROUGH 2015 ($ MILLIONS) 160
• Nanostructured Monolithics 161
• TABLE 88 GLOBAL NANOSTRUCTURED MONOLITHIC MARKET, THROUGH 2015 ($ MILLIONS) 161
• Commercial Monolithic Applications 161
• TABLE 89 GLOBAL MARKET FOR COMMERCIAL NANOSTRUCTURED MONOLITHIC APPLICATIONS, THROUGH 2015 ($ MILLIONS) 162
• High-pressure Discharge Lamp Tubes 162
• TABLE 90 GLOBAL CONSUMPTION OF ALUMINA IN HIGH-PRESSURE DISCHARGE LAMP TUBES, THROUGH 2015 ($ MILLIONS) 162
• Insulation 163
• TABLE 91 GLOBAL CONSUMPTION OF AEROGELS FOR BUILDING INSULATION APPLICATIONS, THROUGH 2015 ($ MILLIONS) 163
• Catalysts 163
• TABLE 92 TRENDS IN GLOBAL DEMAND FOR CRACKING CATALYSTS, THROUGH 2015 ($ MILLIONS) 164
• TABLE 93 GLOBAL CONSUMPTION OF ZEOLITE NANOCATALYSTS, THROUGH 2015 ($ MILLIONS) 164
• Fuel Cell Membranes 164
• TABLE 94 FUEL CELL SALES BY TECHNOLOGY TYPE, THROUGH 2015 ($ MILLIONS) 165
• TABLE 95 GLOBAL CONSUMPTION OF NANOPOROUS POLYMER FUEL CELL MEMBRANE MATERIALS, THROUGH 2015 (METRIC TONS/$ MILLIONS) 165
• Energy Recovery Ventilators 165
• TABLE 96 GLOBAL CONSUMPTION OF NANOSTRUCTURED POLYMER ERV FILTERS, THROUGH 2015 (METRIC TONS/$ MILLION) 166
• Water Filtration Membranes 166
• TABLE 97 GLOBAL CONSUMPTION OF NANOSTRUCTURED POLYMER WATER DESALINATION MEMBRANE MATERIALS, THROUGH 2015 (METRIC TONS/$ MILLION) 166
• Developmental Monolithic Applications 166
• TABLE 98 GLOBAL MARKET FOR DEVELOPMENTAL NANOSTRUCTURED MONOLITHIC APPLICATIONS, THROUGH 2015 ($ MILLIONS) 167
• Medical Implants 167
• TABLE 99 GLOBAL CONSUMPTION OF TITANIUM AND TITANIUM ALLOYS IN ORTHOPEDIC IMPLANTS, THROUGH 2015 ($ MILLIONS) 167
• TABLE 100 GLOBAL CONSUMPTION OF NANOSTRUCTURED TITANIUM FOR MEDICAL IMPLANT APPLICATIONS, THROUGH 2015 ($ MILLIONS) 168
• Aerocapacitors and Other Electrochemical Devices 168
• TABLE 101 GLOBAL MARKET FOR ADVANCED ELECTRONIC AND CAPACITIVE ENERGY STORAGE DEVICES, THROUGH 2015 ($ MILLIONS) 168
• TABLE 102 GLOBAL CONSUMPTION OF CARBON AEROGELS IN ELECTROCHEMICAL DEVICES, THROUGH 2015 ($ MILLIONS) 169
• Nanocomposites 169
• TABLE 103 GLOBAL NANOCOMPOSITES MARKET, THROUGH 2015 ($ MILLIONS) 169
• Established Nanocomposite Applications 170
• TABLE 104 GLOBAL MARKET FOR COMMERCIAL NANOCOMPOSITE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 170
• Automotive Components 170
• FIGURE 5 GLOBAL NANOCOMPOSITE CONSUMPTION IN AUTOMOTIVE APPLICATIONS, 2009 (% OF TOTAL CONSUMPTION BY VALUE) 171
• TABLE 105 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN AUTOMOTIVE COMPONENTS, THROUGH 2015 ($ MILLIONS) 172
• Food Packaging 172
• TABLE 106 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN FOOD PACKAGING APPLICATIONS, THROUGH 2015 ($ MILLIONS) 172
• Wire and Cable Sheathing 172
• TABLE 107 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN WIRE/CABLE SHEATHING AND OTHER FIRE RETARDANT APPLICATIONS, THROUGH 2015 ($ MILLIONS) 173
• ESD Applications 173
• TABLE 108 GLOBAL CONSUMPTION OF NANOCOMPOSITES FOR ESD APPLICATIONS, THROUGH 2015 ($ MILLIONS) 174
• Electrical and Electronic Devices 174
• TABLE 109 GLOBAL CONSUMPTION OF MAGNETIC NANOCOMPOSITES FOR ELECTRICAL AND ELECTRONIC APPLICATIONS, THROUGH 2015 ($ MILLIONS) 174
• Sporting Goods 174
• TABLE 110 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN SPORTING GOODS, THROUGH 2015 ($ MILLIONS) 175
• Dental Adhesives 175
• TABLE 111 GLOBAL CONSUMPTION OF POSS-CONTAINING NANOCOMPOSITES IN DENTAL ADHESIVES, THROUGH 2015 ($ MILLIONS) 175
• Electronics Protection 176
• TABLE 112 GLOBAL CONSUMPTION OF POSS NANOCOMPOSITES USED FOR ELECTRONICS SHIELDING, THROUGH 2015 ($ MILLIONS) 176
• Hydrophobic/Oleophobic Nanocomposites- 176
• TABLE 113 GLOBAL MARKET FOR HYDROPHOBIC/OLEOPHOBIC NANOCOMPOSITES, THROUGH 2015 ($ MILLIONS) 177
• Developmental Nanocomposite Applications 177
• TABLE 114 GLOBAL MARKET FOR DEVELOPMENTAL NANOCOMPOSITE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 177
• Fuel Cells 177
• TABLE 115 FUEL CELL MEMBRANE CONSUMPTION, 2015 (MILLION SQUARE METERS) 178
• TABLE 116 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN FUEL CELL MEMBRANES, THROUGH 2015 ($ MILLIONS) 178
• Tungsten Carbide Tools 179
• TABLE 117 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN TUNGSTEN CARBIDE TOOLS, THROUGH 2015 ($ MILLIONS) 179
• Protective Clothing 179
• TABLE 118 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN PROTECTIVE CLOTHING, THROUGH 2015 ($ MILLIONS) 180
• Photonic Add/Drop Filters 180
• TABLE 119 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN PHOTONIC ADD-DROP FILTERS, THROUGH 2015 ($ MILLIONS) 180
• Optical Switches 180
• TABLE 120 GLOBAL PBG NANOCOMPOSITE CONSUMPTION FOR OPTICAL SWITCH APPLICATIONS, THROUGH 2015 ($ MILLIONS) 181
• Optical Amplifiers 181
• TABLE 121 GLOBAL CONSUMPTION OF PBG NANOCOMPOSITES FOR OPTICAL AMPLIFIER APPLICATIONS, THROUGH 2015 ($ MILLIONS) 182
• Water Purification Filter 182
• TABLE 122 GLOBAL CONSUMPTION OF NANOCOMPOSITE WATER DESALINATION MEMBRANE MATERIALS, THROUGH 2015 (METRIC TONS/$ MILLION) 182
• Orthopedic Implants 182
• TABLE 123 GLOBAL CONSUMPTION OF NANOCOMPOSITE BONE SUBSTITUTE MATERIALS, THROUGH 2015 ($ MILLIONS) 183
• NANOTOOLS 183
• TABLE 124 GLOBAL NANOTOOLS SALES, THROUGH 2015 ($ MILLIONS) 184
• Commercial Applications 184
• TABLE 125 GLOBAL MARKET FOR COMMERCIAL NANOTOOL APPLICATIONS, THROUGH 2015 ($ MILLIONS) 184
• Nanomanipulators 184
• FIGURE 6 GLOBAL NANOMANIPULATOR SHARE OF SALES, 2009 (%) 185
• TABLE 126 GLOBAL SHIPMENTS OF NANOMANIPULATORS, THROUGH 2015 ($ MILLIONS) 185
• Near-Field Optics 186
• TABLE 127 GLOBAL SHIPMENTS OF SCANNING NEAR-FIELD OPTICAL MICROSCOPES, THROUGH 2015 ($ MILLIONS) 186
• Nanomachining Tools 186
• TABLE 128 GLOBAL SHIPMENTS OF NANOMACHINING TOOLS, THROUGH 2015 ($ MILLIONS) 187
• Advanced Optical Nanolithography Tools 187
• TABLE 129 GLOBAL SHIPMENTS OF ADVANCED OPTICAL NANOLITHOGRAPHY TOOLS, THROUGH 2015 ($ MILLIONS) 187
• Developmental Applications 187
• TABLE 130 GLOBAL MARKET FOR DEVELOPMENTAL NANOTOOL APPLICATIONS, THROUGH 2015 ($ MILLIONS) 188
• Maskless Optical Lithography 188
• Next Generation Nanolithography Tools 188
• TABLE 131 GLOBAL SHIPMENTS OF NEXT-GENERATION NANOLITHOGRAPHY TOOLS, THROUGH 2015 ($ MILLIONS) 189
• NANODEVICES 190
• TABLE 132 GLOBAL NANODEVICE SALES, THROUGH 2015 ($ MILLIONS) 190
• Commercial Applications 190
• TABLE 133 GLOBAL MARKET FOR COMMERCIAL NANODEVICE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 190
• Nano-HPLC 191
• TABLE 134 GLOBAL SHIPMENTS OF NANO-HIGH PERFORMANCE LIQUID CHROMATOGRAPHY INSTRUMENTS, THROUGH 2015 ($ MILLIONS) 191
• Nanosensors 191
• TABLE 135 GLOBAL NANO-CHEMICAL SENSOR SHIPMENTS, THROUGH 2015 ($ MILLIONS) 192
• Microfluidic Drug Production Systems 192
• TABLE 136 GLOBAL SHIPMENTS OF NANOPARTICULATE DRUG PRODUCTION SYSTEMS, THROUGH 2015 ($ MILLIONS) 192
• Developmental Applications 192
• Nanoscale Holographic Memory 193
• TABLE 137 GLOBAL NANOSTRUCTURED HOLOGRAPHIC STORAGE MARKET, THROUGH 2015 ($ MILLIONS) 193
• NANOTECHNOLOGY BY END-USER SEGMENT 194
• TABLE 138 GLOBAL NANOTECHNOLOGY CONSUMPTION BY END-USER SEGMENT, THROUGH 2015 ($ MILLIONS) 194
• FIGURE 7 GLOBAL NANOTECHNOLOGY END-USER MARKET SHARES, 2009 VS. 2015 (%) 194
• FIGURE 7 (CONTINUED) 195

Chapter-5: GLOBAL MARKET FOR NANOTECHNOLOGY 99

• TOTAL MARKET SIZE 102
• TABLE 17 GLOBAL MARKET FOR NANOTECHNOLOGY PRODUCTS, THROUGH 2015 ($ MILLIONS) 102
• FIGURE 1 GLOBAL MARKETS FOR NANOTECHNOLOGY PRODUCTS, 2009 THROUGH 2015 ($ MILLIONS) 102
• NANOTECHNOLOGY MARKET BY TYPE OF TECHNOLOGY 103
• TABLE 18 GLOBAL NANOTECHNOLOGY MARKET BY TYPE, THROUGH 2015 ($ MILLIONS) 103
• FIGURE 2 GLOBAL NANOTECHNOLOGY MARKET SHARES, 2009 VS 2015 (%) 103
• FIGURE 2 (CONTINUED) 104
• NANOMATERIALS 104
• Total Market 104
• TABLE 19 GLOBAL NANOMATERIALS SALES BY TYPE, THROUGH 2015 ($ MILLIONS) 105
• FIGURE 3 GLOBAL NANOMATERIALS MARKET SHARES, 2009 VS. 2015 (% OF TOTAL NANOMATERIALS SALES) 105
• FIGURE 3 (CONTINUED) 106
• Nanomaterials Sales by Type 107
• Solid Nanoparticles 107
• TABLE 20 GLOBAL SOLID NANOPARTICLE MARKET BY CURRENT STAGE OF COMMERCIALIZATION, THROUGH 2015 ($ MILLIONS) 107
• Established Commercial Nanoparticle Applications 107
• TABLE 21 GLOBAL MARKET FOR ESTABLISHED COMMERCIAL NANOPARTICLE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 108
• Coatings and Adhesives 108
• TABLE 22 GLOBAL CONSUMPTION OF PGM POLYMER NANOPARTICLES USED IN COATINGS AND ADHESIVES, THROUGH 2015 ($ MILLIONS) 109
• Ultrafine Polishing Compounds 109
• TABLE 23 GLOBAL TREND IN GLOBAL SEMICONDUCTOR SALES, THROUGH 2015 ($ BILLION) 110
• TABLE 24 GLOBAL CONSUMPTION OF SILICA AND ALUMINA NANOPARTICLES USED IN CMP COMPOUNDS, THROUGH 2015 ($ MILLIONS) 110
• UV Absorbers 110
• TABLE 25 GLOBAL SUNSCREEN SALES, THROUGH 2015 ($ BILLION) 111
• TABLE 26 GLOBAL CONSUMPTION OF TI02 AND ZNO NANOPARTICLES USED IN SUNSCREENS AND OTHER PERSONAL CARE PRODUCTS, THROUGH 2015 ($ MILLIONS) 111
• Synthetic Bone and Tooth Enamel 112
• TABLE 27 GLOBAL MARKET FOR NANOPARTICLE-BASED SYNTHETIC BONE AND TOOTH ENAMELS, THROUGH 2015 ($ MILLIONS) 112
• Ferrofluids 113
• TABLE 28 GLOBAL PRODUCTION OF ELECTRONIC DEVICES INCORPORATING FERROFLUIDS, THROUGH 2015 (MILLION UNITS) 113
• TABLE 29 GLOBAL MARKET FOR IRON OXIDE NANOPARTICLES USED IN FERROFLUIDS, THROUGH 2015 ($ MILLIONS) 113
• Pharmaceuticals 114
• TABLE 30 GLOBAL MARKET FOR NANOPARTICLES USED TO DELIVER DRUGS, THROUGH 2015 ($ MILLIONS) 114
• Fabric Treatment 115
• TABLE 31 GLOBAL MARKET FOR POLYMER NANOPARTICLES USED IN FABRIC TREATMENTS, THROUGH 2015 ($ MILLIONS) 116
• Biomedical Markers and Detection Aids 116
• FIGURE 4 NANOPARTICLES USED IN BIOLOGICAL MARKER AND DETECTION AID APPLICATIONS, 2009 (% OF TOTAL SALES) 116
• FIGURE 4 (CONTINUED) 117
• TABLE 32 GLOBAL MARKET FOR NANOPARTICLES USED AS BIOMEDICAL MARKERS AND DETECTION AIDS, THROUGH 2015 ($ MILLIONS) 118
• Transfection Reagents 118
• TABLE 33 GLOBAL MARKET FOR DENDRIMERS USED IN TRANSFECTION REAGENTS, THROUGH 2015 ($ MILLIONS) 119
• Dietary Supplements 119
• TABLE 34 GLOBAL MARKET FOR SILVER AND SILICA NANOPARTICLES USED IN DIETARY SUPPLEMENTS, THROUGH 2015 ($ MILLIONS) 120
• Filtration Systems 120
• TABLE 35 GLOBAL MARKET FOR NANOPARTICULATE ALUMINA USED IN ULTRAFILTRATION APPLICATIONS, THROUGH 2015 ($ MILLIONS) 120
• Magnetic Separations 120
• TABLE 36 GLOBAL MARKET FOR NANOPARTICULATE IRON OXIDE USED IN BIOMAGNETIC SEPARATION APPLICATIONS, THROUGH 2015 ($ MILLIONS) 121
• MRI Contrast Agents 121
• TABLE 37 GLOBAL MARKET FOR NANOPARTICULATE IRON OXIDE USED IN MRI CONTRAST MEDIA, THROUGH 2015 ($ MILLIONS) 122
• Surface Disinfectants 122
• TABLE 38 GLOBAL MARKET FOR OIL NANOSPHERES USED IN SURFACE DISINFECTANTS, THROUGH 2015 ($ MILLIONS) 122
• Diesel Fuel Additives 122
• TABLE 39 GLOBAL MARKET FOR NANOPARTICULATE CERIUM OXIDE USED IN DIESEL FUEL ADDITIVES, THROUGH 2015 ($ MILLIONS) 123
• Fuel and Explosive Additives 123
• TABLE 40 GLOBAL MARKET FOR NANOPARTICULATE ALUMINA AND IRON OXIDE FOR FUEL AND EXPLOSIVE ADDITIVES, THROUGH 2015 ($ MILLIONS) 124
• Diode Lasers 124
• TABLE 41 GLOBAL MARKET FOR QUANTUM DOTS USED IN DIODE LASERS, THROUGH 2015 ($ MILLIONS) 124
• Photovoltaics 125
• TABLE 42 GLOBAL MARKET FOR NANOPARTICLES USED IN PHOTOVOLTAICS, THROUGH 2015 ($ MILLIONS) 125
• Refinery Catalysts 125
• TABLE 43 GLOBAL MARKET FOR NANOPARTICLES USED IN PETROLEUM REFINING, THROUGH 2015 ($MILLION) 126
• Multi-Layer Ceramic Capacitors 126
• TABLE 44 GLOBAL CONSUMPTION OF NANOPARTICLES IN MULTI-LAYER CERAMIC CAPACITOR APPLICATIONS, THROUGH 2015 ($ MILLIONS) 126
• Printed Electronics 127
• TABLE 45 GLOBAL CONSUMPTION OF SILVER NANOPARTICLES IN ELECTRONIC PRINTING INKS THROUGH 2015 ($ MILLIONS) 127
• Rechargeable Batteries 128
• TABLE 46 GLOBAL CONSUMPTION OF NANOPARTICLES USED IN RECHARGEABLE LITHIUM ION BATTERIES, THROUGH 2015 ($ MILLIONS) 128
• Developmental Applications 129
• TABLE 47 GLOBAL MARKET FOR COMMERCIALLY PROMISING NANOPARTICLE APPLICATIONS STILL UNDER DEVELOPMENT, THROUGH 2015 ($ MILLIONS) 129
• Molecular Imaging Agents 129
• TABLE 48 GLOBAL CONSUMPTION OF APTAMERS FOR MOLECULAR IMAGING APPLICATIONS, THROUGH 2015 ($ MILLIONS) 130
• Proteomics 130
• TABLE 49 GLOBAL CONSUMPTION OF APTAMERS FOR PROTEOMICS APPLICATIONS, THROUGH 2015 ($ MILLIONS) 131
• Light Emitting Diodes 131
• TABLE 50 GLOBAL CONSUMPTION OF NANOPARTICLES IN LED FABRICATION, THROUGH 2015 ($ MILLIONS) 131
• Flat-panel Displays 132
• TABLE 51 GLOBAL CONSUMPTION OF NANOPARTICLES IN FLAT PANEL DISPLAYS, THROUGH 2015 ($ MILLIONS) 132
• Digital Image Sensors 132
• TABLE 52 GLOBAL CONSUMPTION OF QUANTUM DOTS IN DIGITAL IMAGE SENSORS, THROUGH 2015 ($ MILLIONS) 133
• Electrochromic Displays 133
• TABLE 53 GLOBAL CONSUMPTION OF ELECTROCHROMIC DISPLAY MATERIALS, THROUGH 2015 ($ MILLIONS) 133
• Nanotubes and Other Hollow Nanoparticles 134
• TABLE 54 GLOBAL MARKET FOR NANOTUBES AND OTHER HOLLOW NANOPARTICLES, THROUGH 2015 ($ MILLIONS) 134
• Established Commercial Nanotube Applications 134
• TABLE 55 MARKET FOR ESTABLISHED CARBON NANOTUBE APPLICATIONS*, THROUGH 2015 ($ MILLIONS) 135
• Scanning Microscope Tips 135
• Nanosensors 135
• TABLE 56 GLOBAL CONSUMPTION OF CARBON NANOTUBE SENSOR ELEMENTS, THROUGH 2015 ($ MILLIONS) 136
• Developmental Applications 136
• TABLE 57 MARKET FOR COMMERCIALLY PROMISING NANOTUBE APPLICATIONS STILL UNDER DEVELOPMENT, THROUGH 2016 ($ MILLIONS) 136
• Field Emission Devices 136
• TABLE 58 GLOBAL CONSUMPTION OF CARBON NANOTUBE MEDICAL X-RAY TUBES, THROUGH 2015 ($ MILLIONS) 137
• Semiconductors 138
• Printed Electronics 138
• TABLE 59 GLOBAL CONSUMPTION OF CARBON NANOTUBE INKS IN PRINTED ELECTRONICS, THROUGH 2015 ($ MILLIONS) 138
• Hydrogen Storage 138
• Conductive Fibers 139
• TABLE 60 GLOBAL CONSUMPTION OF CARBON NANOTUBE CONDUCTIVE FIBERS THROUGH 2015 ($ MILLIONS) 139
• Ultrathin Batteries 140
• TABLE 61 GLOBAL CONSUMPTION OF CARBON NANOTUBE ELECTRODE MATERIALS IN ULTRATHIN �gPAPER BATTERIES�h, THROUGH 2015 ($ MILLIONS) 140
• Nanoscale Thin Films 140
• TABLE 62 GLOBAL NANOSCALE THIN FILM MARKET, THROUGH 2015 ($ MILLIONS) 141
• Established Commercial Thin Film Applications 141
• TABLE 63 GLOBAL MARKET FOR ESTABLISHED COMMERCIAL THIN FILM APPLICATIONS, THROUGH 2015 ($ MILLIONS) 141
• Catalytic Converters 142
• TABLE 64 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN CATALYTIC CONVERTERS, THROUGH 2015 ($ MILLIONS) 142
• Fuel Cells 143
• TABLE 65 GLOBAL FUEL CELL SALES BY TECHNOLOGY TYPE, THROUGH 2015 ($ MILLIONS) 143
• TABLE 66 FUEL CELL CONSUMPTION OF PLATINUM THIN FILM CATALYSTS, THROUGH 2015 ($ MILLION/%) 144
• Flat Panel Displays 144
• TABLE 67 CONSUMPTION OF OLED THIN FILM MATERIALS, THROUGH 2015 ($ MILLION/%) 145
• Nanoporous Membranes 145
• TABLE 68 GLOBAL CONSUMPTION OF NANOPOROUS THIN FILM MEMBRANES THROUGH 2015 ($ MILLIONS) 146
• Eyeglass and Other Lens Coatings 146
• TABLE 69 GLOBAL EYEGLASS COATING SALES, THROUGH 2015 ($ MILLIONS) 147
• TABLE 70 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN EYEGLASS AND OTHER OPTICAL COATINGS, THROUGH 2015 ($ MILLIONS) 147
• Antimicrobial Dressings 147
• TABLE 71 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN ANTIMICROBIAL DRESSINGS, THROUGH 2015 ($ MILLIONS) 148
• Optical Recording Media 148
• TABLE 72 GLOBAL SHIPMENTS OF AUDIO CDS AND VIDEO DVDS, THROUGH 2015 (MILLION UNITS) 149
• TABLE 73 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN OPTIICAL RECORDING MEDIA COATINGS, THROUGH 2015 ($ MILLIONS) 149
• Hard Disk Media and Heads 149
• TABLE 74 GLOBAL HARD DISK MEDIA PRODUCTION AND THIN FILM MATERIALS CONSUMPTION, THROUGH 2015 (MILLION UNITS/$ MILLION) 150
• TABLE 75 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN HARD DISK MEDIA AND RECORDING HEADS, THROUGH 2015 ($ MILLIONS) 150
• Magnetic Recording Media 150
• TABLE 76 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN MAGNETIC RECORDING MEDIA, THROUGH 2015 ($ MILLIONS) 151
• Fiber Optic Cladding 151
• TABLE 77 GLOBAL OUTPUT OF FIBER OPTIC CABLE, THROUGH 2015 (MILLION KM) 152
• TABLE 78 GLOBAL CONSUMPTION OF SILICA NANOMATERIALS FOR FIBER OPTIC CABLE, THROUGH 2015 ($ MILLIONS) 152
• Photocatalytic Coatings 152
• TABLE 79 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN PHOTOCATALYTIC COATINGS, THROUGH 2015 ($ MILLIONS) 153
• Anti-Scratch Coatings 153
• TABLE 80 GLOBAL CONSUMPTION OF ALUMINA AND OTHER METAL OXIDE NANOPARTICLES USED IN SCRATCH-RESISTANT COATINGS, THROUGH 2015 ($ MILLIONS) 154
• Low-k Dielectric Films 154
• TABLE 81 GLOBAL CONSUMPTION OF NANOSCALE LOW-K DIELECTRIC FILM MATERIALS, THROUGH 2015 ($ MILLIONS) 154
• Electroconductive Coatings 155
• TABLE 82 GLOBAL CONSUMPTION OF NANOSCALE MATERIALS FOR ELECTROCONDUCTIVE COATINGS, THROUGH 2015 ($ MILLIONS) 155
• Thermal Spray Coatings 155
• TABLE 83 GLOBAL CONSUMPTION OF NANOSCALE THERMAL SPRAY COATING MATERIALS, THROUGH 2015 ($ MILLIONS) 156
• Photovoltaics 156
• TABLE 84 GLOBAL CONSUMPTION OF NANOSCALE THIN FILM MATERIALS IN PHOTOVOLTAICS, THROUGH 2015 ($ MILLIONS) 156
• Developmental Thin Film Applications 157
• TABLE 85 GLOBAL MARKET FOR COMMERCIALLY PROMISING NANOTHIN FILM APPLICATIONS STILL UNDER DEVELOPMENT, THROUGH 2015 ($ MILLIONS) 157
• Transparent Electrodes 158
• TABLE 86 GLOBAL CONSUMPTION OF NANOTUBES USED IN FIELD EMISSION DISPLAYS, THROUGH 2015 ($ MILLIONS) 158
• MRI-Safe Coatings 158
• Biocompatible Coatings 159
• OLED Lighting 159
• TABLE 87 GLOBAL CONSUMPTION OF OLED LIGHTING, THROUGH 2015 ($ MILLIONS) 160
• Nanostructured Monolithics 161
• TABLE 88 GLOBAL NANOSTRUCTURED MONOLITHIC MARKET, THROUGH 2015 ($ MILLIONS) 161
• Commercial Monolithic Applications 161
• TABLE 89 GLOBAL MARKET FOR COMMERCIAL NANOSTRUCTURED MONOLITHIC APPLICATIONS, THROUGH 2015 ($ MILLIONS) 162
• High-pressure Discharge Lamp Tubes 162
• TABLE 90 GLOBAL CONSUMPTION OF ALUMINA IN HIGH-PRESSURE DISCHARGE LAMP TUBES, THROUGH 2015 ($ MILLIONS) 162
• Insulation 163
• TABLE 91 GLOBAL CONSUMPTION OF AEROGELS FOR BUILDING INSULATION APPLICATIONS, THROUGH 2015 ($ MILLIONS) 163
• Catalysts 163
• TABLE 92 TRENDS IN GLOBAL DEMAND FOR CRACKING CATALYSTS, THROUGH 2015 ($ MILLIONS) 164
• TABLE 93 GLOBAL CONSUMPTION OF ZEOLITE NANOCATALYSTS, THROUGH 2015 ($ MILLIONS) 164
• Fuel Cell Membranes 164
• TABLE 94 FUEL CELL SALES BY TECHNOLOGY TYPE, THROUGH 2015 ($ MILLIONS) 165
• TABLE 95 GLOBAL CONSUMPTION OF NANOPOROUS POLYMER FUEL CELL MEMBRANE MATERIALS, THROUGH 2015 (METRIC TONS/$ MILLIONS) 165
• Energy Recovery Ventilators 165
• TABLE 96 GLOBAL CONSUMPTION OF NANOSTRUCTURED POLYMER ERV FILTERS, THROUGH 2015 (METRIC TONS/$ MILLION) 166
• Water Filtration Membranes 166
• TABLE 97 GLOBAL CONSUMPTION OF NANOSTRUCTURED POLYMER WATER DESALINATION MEMBRANE MATERIALS, THROUGH 2015 (METRIC TONS/$ MILLION) 166
• Developmental Monolithic Applications 166
• TABLE 98 GLOBAL MARKET FOR DEVELOPMENTAL NANOSTRUCTURED MONOLITHIC APPLICATIONS, THROUGH 2015 ($ MILLIONS) 167
• Medical Implants 167
• TABLE 99 GLOBAL CONSUMPTION OF TITANIUM AND TITANIUM ALLOYS IN ORTHOPEDIC IMPLANTS, THROUGH 2015 ($ MILLIONS) 167
• TABLE 100 GLOBAL CONSUMPTION OF NANOSTRUCTURED TITANIUM FOR MEDICAL IMPLANT APPLICATIONS, THROUGH 2015 ($ MILLIONS) 168
• Aerocapacitors and Other Electrochemical Devices 168
• TABLE 101 GLOBAL MARKET FOR ADVANCED ELECTRONIC AND CAPACITIVE ENERGY STORAGE DEVICES, THROUGH 2015 ($ MILLIONS) 168
• TABLE 102 GLOBAL CONSUMPTION OF CARBON AEROGELS IN ELECTROCHEMICAL DEVICES, THROUGH 2015 ($ MILLIONS) 169
• Nanocomposites 169
• TABLE 103 GLOBAL NANOCOMPOSITES MARKET, THROUGH 2015 ($ MILLIONS) 169
• Established Nanocomposite Applications 170
• TABLE 104 GLOBAL MARKET FOR COMMERCIAL NANOCOMPOSITE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 170
• Automotive Components 170
• FIGURE 5 GLOBAL NANOCOMPOSITE CONSUMPTION IN AUTOMOTIVE APPLICATIONS, 2009 (% OF TOTAL CONSUMPTION BY VALUE) 171
• TABLE 105 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN AUTOMOTIVE COMPONENTS, THROUGH 2015 ($ MILLIONS) 172
• Food Packaging 172
• TABLE 106 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN FOOD PACKAGING APPLICATIONS, THROUGH 2015 ($ MILLIONS) 172
• Wire and Cable Sheathing 172
• TABLE 107 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN WIRE/CABLE SHEATHING AND OTHER FIRE RETARDANT APPLICATIONS, THROUGH 2015 ($ MILLIONS) 173
• ESD Applications 173
• TABLE 108 GLOBAL CONSUMPTION OF NANOCOMPOSITES FOR ESD APPLICATIONS, THROUGH 2015 ($ MILLIONS) 174
• Electrical and Electronic Devices 174
• TABLE 109 GLOBAL CONSUMPTION OF MAGNETIC NANOCOMPOSITES FOR ELECTRICAL AND ELECTRONIC APPLICATIONS, THROUGH 2015 ($ MILLIONS) 174
• Sporting Goods 174
• TABLE 110 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN SPORTING GOODS, THROUGH 2015 ($ MILLIONS) 175
• Dental Adhesives 175
• TABLE 111 GLOBAL CONSUMPTION OF POSS-CONTAINING NANOCOMPOSITES IN DENTAL ADHESIVES, THROUGH 2015 ($ MILLIONS) 175
• Electronics Protection 176
• TABLE 112 GLOBAL CONSUMPTION OF POSS NANOCOMPOSITES USED FOR ELECTRONICS SHIELDING, THROUGH 2015 ($ MILLIONS) 176
• Hydrophobic/Oleophobic Nanocomposites- 176
• TABLE 113 GLOBAL MARKET FOR HYDROPHOBIC/OLEOPHOBIC NANOCOMPOSITES, THROUGH 2015 ($ MILLIONS) 177
• Developmental Nanocomposite Applications 177
• TABLE 114 GLOBAL MARKET FOR DEVELOPMENTAL NANOCOMPOSITE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 177
• Fuel Cells 177
• TABLE 115 FUEL CELL MEMBRANE CONSUMPTION, 2015 (MILLION SQUARE METERS) 178
• TABLE 116 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN FUEL CELL MEMBRANES, THROUGH 2015 ($ MILLIONS) 178
• Tungsten Carbide Tools 179
• TABLE 117 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN TUNGSTEN CARBIDE TOOLS, THROUGH 2015 ($ MILLIONS) 179
• Protective Clothing 179
• TABLE 118 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN PROTECTIVE CLOTHING, THROUGH 2015 ($ MILLIONS) 180
• Photonic Add/Drop Filters 180
• TABLE 119 GLOBAL CONSUMPTION OF NANOCOMPOSITES IN PHOTONIC ADD-DROP FILTERS, THROUGH 2015 ($ MILLIONS) 180
• Optical Switches 180
• TABLE 120 GLOBAL PBG NANOCOMPOSITE CONSUMPTION FOR OPTICAL SWITCH APPLICATIONS, THROUGH 2015 ($ MILLIONS) 181
• Optical Amplifiers 181
• TABLE 121 GLOBAL CONSUMPTION OF PBG NANOCOMPOSITES FOR OPTICAL AMPLIFIER APPLICATIONS, THROUGH 2015 ($ MILLIONS) 182
• Water Purification Filter 182
• TABLE 122 GLOBAL CONSUMPTION OF NANOCOMPOSITE WATER DESALINATION MEMBRANE MATERIALS, THROUGH 2015 (METRIC TONS/$ MILLION) 182
• Orthopedic Implants 182
• TABLE 123 GLOBAL CONSUMPTION OF NANOCOMPOSITE BONE SUBSTITUTE MATERIALS, THROUGH 2015 ($ MILLIONS) 183
• NANOTOOLS 183
• TABLE 124 GLOBAL NANOTOOLS SALES, THROUGH 2015 ($ MILLIONS) 184
• Commercial Applications 184
• TABLE 125 GLOBAL MARKET FOR COMMERCIAL NANOTOOL APPLICATIONS, THROUGH 2015 ($ MILLIONS) 184
• Nanomanipulators 184
• FIGURE 6 GLOBAL NANOMANIPULATOR SHARE OF SALES, 2009 (%) 185
• TABLE 126 GLOBAL SHIPMENTS OF NANOMANIPULATORS, THROUGH 2015 ($ MILLIONS) 185
• Near-Field Optics 186
• TABLE 127 GLOBAL SHIPMENTS OF SCANNING NEAR-FIELD OPTICAL MICROSCOPES, THROUGH 2015 ($ MILLIONS) 186
• Nanomachining Tools 186
• TABLE 128 GLOBAL SHIPMENTS OF NANOMACHINING TOOLS, THROUGH 2015 ($ MILLIONS) 187
• Advanced Optical Nanolithography Tools 187
• TABLE 129 GLOBAL SHIPMENTS OF ADVANCED OPTICAL NANOLITHOGRAPHY TOOLS, THROUGH 2015 ($ MILLIONS) 187
• Developmental Applications 187
• TABLE 130 GLOBAL MARKET FOR DEVELOPMENTAL NANOTOOL APPLICATIONS, THROUGH 2015 ($ MILLIONS) 188
• Maskless Optical Lithography 188
• Next Generation Nanolithography Tools 188
• TABLE 131 GLOBAL SHIPMENTS OF NEXT-GENERATION NANOLITHOGRAPHY TOOLS, THROUGH 2015 ($ MILLIONS) 189
• NANODEVICES 190
• TABLE 132 GLOBAL NANODEVICE SALES, THROUGH 2015 ($ MILLIONS) 190
• Commercial Applications 190
• TABLE 133 GLOBAL MARKET FOR COMMERCIAL NANODEVICE APPLICATIONS, THROUGH 2015 ($ MILLIONS) 190
• Nano-HPLC 191
• TABLE 134 GLOBAL SHIPMENTS OF NANO-HIGH PERFORMANCE LIQUID CHROMATOGRAPHY INSTRUMENTS, THROUGH 2015 ($ MILLIONS) 191
• Nanosensors 191
• TABLE 135 GLOBAL NANO-CHEMICAL SENSOR SHIPMENTS, THROUGH 2015 ($ MILLIONS) 192
• Microfluidic Drug Production Systems 192
• TABLE 136 GLOBAL SHIPMENTS OF NANOPARTICULATE DRUG PRODUCTION SYSTEMS, THROUGH 2015 ($ MILLIONS) 192
• Developmental Applications 192
• Nanoscale Holographic Memory 193
• TABLE 137 GLOBAL NANOSTRUCTURED HOLOGRAPHIC STORAGE MARKET, THROUGH 2015 ($ MILLIONS) 193
• NANOTECHNOLOGY BY END-USER SEGMENT 194
• TABLE 138 GLOBAL NANOTECHNOLOGY CONSUMPTION BY END-USER SEGMENT, THROUGH 2015 ($ MILLIONS) 194
• FIGURE 7 GLOBAL NANOTECHNOLOGY END-USER MARKET SHARES, 2009 VS. 2015 (%) 194
• FIGURE 7 (CONTINUED) 195

Chapter-6: DEVELOPMENTS THAT COULD INFLUENCE THE NANOTECHNOLOGY MARKET 8

• ECONOMIC TRENDS 196
• FIGURE 8 ANNUAL GROWTH RATE PERCENT OF WORLD GDP, 2002-2015 (%) 196
• FIGURE 8 (CONTINUED) 197
• ATTITUDE OF VENTURE CAPITALISTS 197
• ATTITUDE OF VENTURE CAPITALISTS (CONTINUED) 197
• ENVIRONMENTAL/HEALTH/SAFETY AND OTHER IMPACTS OF NANOMATERIALS 198
• ENVIRONMENTAL/HEALTH�c(CONTINUED) 199
• POLITICAL/LEGAL/REGULATORY TRENDS 200
• GOVERNMENT-FUNDED NANOTECHNOLOGY INITIATIVES 201
• FIGURE 9 GLOBAL GOVERNMENT NANOTECHNOLOGY R&D INVESTMENTS, BY REGION 2009 (PERCENT OF TOTAL GOVERNMENT INVESTMENTS) 201
• LAWS AND REGULATIONS 202
• LONG-TERM MARKET PROSPECTS 203

Chapter-7: NANOTECHNOLOGY INDUSTRY STRUCTURE 7

• A123 SYSTEMS, INC. 211
• ALMATIS GMBH 211
• ALPS ELECTRIC CO., LTD. 212
• ALTAIR NANOTECHNOLOGIES, INC. 212
• ANTARIA LTD. 212
• APHIOS CORP. 213
• APPLIED PLASMONICS, INC. 213
• ARGONIDE CORP. 213
• ASPEN AEROGELS, INC. 214
• BAIKOWSKI INTERNATIONAL CORP. 214
• BANGS LABORATORIES, INC. 214
• BASF AG 215
• BAYER AG 216
• BIOPHAN TECHNOLOGIES, INC. 216
• CABOT MICROELECTRONICS CORP. 216
• CAPSULUTION NANOSCIENCE AG 217
• CATALYTIC SOLUTIONS, INC. 217
• CATALYTIC MATERIALS, LLC 218
• CIMA NANOTECH 218
• CLARIANT LTD. 218
• COOPER BUSSMAN 219
• CYRIUM TECHNOLOGIES INC. 219
• DAIS ANALYTIC CORP. 219
• DENDRITIC NANOTECHNOLOGIES INC. 220
• DE NORA NORTH AMERICA INC. 220
• DIONEX CORP. 220
• DONALDSON CO., INC. 221
• DOW CHEMICAL CO. 221
• DOWA MINING CO., LTD. 222
• DYNAL BIOTECH ASA 222
• E. I. DUPONT DE NEMOURS AND CO. 223
• EASTMAN KODAK CO. 223
• EKA CHEMICALS AB 224
• ENER1, INC. 224
• ENVIROSYSTEMS, INC. 225
• ESPIN TECHNOLOGIES, INC. 225
• EV GROUP 226
• EVIDENT TECHNOLOGIES 226
• EKSIGENT TECHNOLOGIES, LLC 227
• EVONIK DEGUSSA GMBH 227
• EXXON MOBIL CORP. 228
• FERROTEC CORP. 228
• FLAMEL TECHNOLOGIES SA 229
• FORGE EUROPA LTD. 229
• FOSTER CORP. 229
• FRONTIER CARBON CORP. 230
• FUJIMI CORP. 230
• GENERAL MOTORS CORP. 230
• GE PLASTICS 231
• GENERAL NANOTECHNOLOGY, INC. 231
• G24 INNOVATIONS, LTD. 231
• GMA INDUSTRIES, INC. 232
• HEADWATERS NANOKINETIX, INC. 232
• HEWLETT-PACKARD 233
• HOLMENKOL SPORT-TECHNOLOGIES GMBH 233
• HONEYWELL SPECIALTY POLYMERS 234
• HYPERION CATALYSIS INTERNATIONAL, INC. 234
• HYPER-THERM HIGH TEMPERATURE COMPOSITES, INC. 234
• IBM CORP. 235
• INFRAMAT CORP. 235
• INMAT LLC 236
• INTEGRATED NANO-TECHNOLOGIES, LLC 236
• INVISAGE TECHNOLOGIES 237
• ISHIHARA SANGYO KAISHA, LTD. 237
• JOHNSON MATTHEY PLC 238
• KABELWERK EUPEN AG 238
• KLEINDIEK NANOTECHNIK 239
• KLOCKE NANOTECHNIK 239
• KONARKA TECHNOLOGIES, INC. 239
• LYONDELLBASELL POLYMERS 240
• MACH 1, INC. 241
• MEDIA AND PROCESS TECHNOLOGY, INC. 241
• MEMBRANE TECHNOLOGY AND RESEARCH, INC. 241
• MICROCOSM, INC. 242
• MICROFLUIDICS INC. 242
• MICRO-TECH SCIENTIFIC INC. 243
• MITSUBISHI CHEMICAL CORP. 243
• MOLECULAR IMPRINTS, INC. 243
• MOLECULAR NANOSYSTEMS, INC. 244
• MOYCO TECHNOLOGIES, INC. 244
• NANOCARRIER CORP., LTD. 245
• NANOCOR, INC. 245
• NANOCRYSTALS TECHNOLOGY, LTD. 246
• NANOFILM 246
• NANOGATE TECHNOLOGIES, GMBH 247
• NANOGRAM CORP. 247
• NANOH20, INC. 248
• NANOINK, INC. 248
• NANO MASK, INC. 249
• NANOLEDGE 249
• NANOMIX, INC. 249
• NANONEX 250
• NANOPHASE TECHNOLOGIES CORP. 250
• NANOPORE, INC. 251
• NANOSCALE CORP 252
• NANOSOLAR, INC. 252
• NANOSPECTRA BIOSCIENCES, INC. 252
• NANOSPHERE, INC. 253
• NANOSTRUCTURED & AMORPHOUS MATERIALS, INC. 254
• NANOSYS, INC. 255
• NANO-TEX, LLC 255
• NANTERO, INC. 255
• NEI CORP. 256
• NEXTECH MATERIALS, LTD. 256
• NOVACENTRIX CORP. 257
• NPOINT, INC. 257
• NTERA, INC. 257
• NVE CORP. 258
• NYACOL NANO TECHNOLOGIES, INC. 259
• OBDUCAT AB 259
• ORTHOVITA, INC. 260
• PHARMASOL GMBH 260
• PIONEER SURGICAL TECHNOLOGY 261
• POLYSCIENCES INC. 261
• PSIVIDA LTD. 261
• QD VISION, INC. 262
• QUANTUMSPHERE, INC. 262
• RAVE, LLC 263
• RHODIA SA 263
• RITDISPLAY CORP. 263
• ROHM AND HAAS CO. 264
• ROSSETER HOLDINGS, LTD. 264
• RBC LIFE SCIENCES, INC. 264
• RTP CO. 265
• SACHTLEBEN CHEMIE 265
• SHENZHEN NANO-TECH PORT CO., LTD. 265
• SHOWA DENKO K.K. 266
• SIM COMPOSITES, INC. 266
• SKYEPHARMA PLC 267
• SOLARONIX SA 267
• SOUTHERN CLAY PRODUCTS, INC. 268
• SOUTHWEST NANOTECHNOLOGIES, INC. 268
• SUD-CHEMIE AG 269
• 3RDTECH, INC. 269
• TAYCA CORP. 270
• TOHOKU PIONEER CORP. 270
• TOTO LTD. 270
• TPL, INC. 271
• UBE INDUSTRIES, LTD. 271
• N.V. UMICORE S.A. 272
• UNIDYM 272
• UNITIKA, LTD. 272
• UNIVERSAL DISPLAY CORP. 273
• U.S. NANOCORP, INC. 273
• VEECO INSTRUMENTS, INC. 274
• WILSON SPORTING GOODS CO. 274
• XEROX CORP. 274
• XINTEK, INC. 275
• ZETTACORE 275
• ZYVEX CORP. 276

Chapter-8: COMPANY PROFILES 65

• A123 SYSTEMS, INC. 211
• ALMATIS GMBH 211
• ALPS ELECTRIC CO., LTD. 212
• ALTAIR NANOTECHNOLOGIES, INC. 212
• ANTARIA LTD. 212
• APHIOS CORP. 213
• APPLIED PLASMONICS, INC. 213
• ARGONIDE CORP. 213
• ASPEN AEROGELS, INC. 214
• BAIKOWSKI INTERNATIONAL CORP. 214
• BANGS LABORATORIES, INC. 214
• BASF AG 215
• BAYER AG 216
• BIOPHAN TECHNOLOGIES, INC. 216
• CABOT MICROELECTRONICS CORP. 216
• CAPSULUTION NANOSCIENCE AG 217
• CATALYTIC SOLUTIONS, INC. 217
• CATALYTIC MATERIALS, LLC 218
• CIMA NANOTECH 218
• CLARIANT LTD. 218
• COOPER BUSSMAN 219
• CYRIUM TECHNOLOGIES INC. 219
• DAIS ANALYTIC CORP. 219
• DENDRITIC NANOTECHNOLOGIES INC. 220
• DE NORA NORTH AMERICA INC. 220
• DIONEX CORP. 220
• DONALDSON CO., INC. 221
• DOW CHEMICAL CO. 221
• DOWA MINING CO., LTD. 222
• DYNAL BIOTECH ASA 222
• E. I. DUPONT DE NEMOURS AND CO. 223
• EASTMAN KODAK CO. 223
• EKA CHEMICALS AB 224
• ENER1, INC. 224
• ENVIROSYSTEMS, INC. 225
• ESPIN TECHNOLOGIES, INC. 225
• EV GROUP 226
• EVIDENT TECHNOLOGIES 226
• EKSIGENT TECHNOLOGIES, LLC 227
• EVONIK DEGUSSA GMBH 227
• EXXON MOBIL CORP. 228
• FERROTEC CORP. 228
• FLAMEL TECHNOLOGIES SA 229
• FORGE EUROPA LTD. 229
• FOSTER CORP. 229
• FRONTIER CARBON CORP. 230
• FUJIMI CORP. 230
• GENERAL MOTORS CORP. 230
• GE PLASTICS 231
• GENERAL NANOTECHNOLOGY, INC. 231
• G24 INNOVATIONS, LTD. 231
• GMA INDUSTRIES, INC. 232
• HEADWATERS NANOKINETIX, INC. 232
• HEWLETT-PACKARD 233
• HOLMENKOL SPORT-TECHNOLOGIES GMBH 233
• HONEYWELL SPECIALTY POLYMERS 234
• HYPERION CATALYSIS INTERNATIONAL, INC. 234
• HYPER-THERM HIGH TEMPERATURE COMPOSITES, INC. 234
• IBM CORP. 235
• INFRAMAT CORP. 235
• INMAT LLC 236
• INTEGRATED NANO-TECHNOLOGIES, LLC 236
• INVISAGE TECHNOLOGIES 237
• ISHIHARA SANGYO KAISHA, LTD. 237
• JOHNSON MATTHEY PLC 238
• KABELWERK EUPEN AG 238
• KLEINDIEK NANOTECHNIK 239
• KLOCKE NANOTECHNIK 239
• KONARKA TECHNOLOGIES, INC. 239
• LYONDELLBASELL POLYMERS 240
• MACH 1, INC. 241
• MEDIA AND PROCESS TECHNOLOGY, INC. 241
• MEMBRANE TECHNOLOGY AND RESEARCH, INC. 241
• MICROCOSM, INC. 242
• MICROFLUIDICS INC. 242
• MICRO-TECH SCIENTIFIC INC. 243
• MITSUBISHI CHEMICAL CORP. 243
• MOLECULAR IMPRINTS, INC. 243
• MOLECULAR NANOSYSTEMS, INC. 244
• MOYCO TECHNOLOGIES, INC. 244
• NANOCARRIER CORP., LTD. 245
• NANOCOR, INC. 245
• NANOCRYSTALS TECHNOLOGY, LTD. 246
• NANOFILM 246
• NANOGATE TECHNOLOGIES, GMBH 247
• NANOGRAM CORP. 247
• NANOH20, INC. 248
• NANOINK, INC. 248
• NANO MASK, INC. 249
• NANOLEDGE 249
• NANOMIX, INC. 249
• NANONEX 250
• NANOPHASE TECHNOLOGIES CORP. 250
• NANOPORE, INC. 251
• NANOSCALE CORP 252
• NANOSOLAR, INC. 252
• NANOSPECTRA BIOSCIENCES, INC. 252
• NANOSPHERE, INC. 253
• NANOSTRUCTURED & AMORPHOUS MATERIALS, INC. 254
• NANOSYS, INC. 255
• NANO-TEX, LLC 255
• NANTERO, INC. 255
• NEI CORP. 256
• NEXTECH MATERIALS, LTD. 256
• NOVACENTRIX CORP. 257
• NPOINT, INC. 257
• NTERA, INC. 257
• NVE CORP. 258
• NYACOL NANO TECHNOLOGIES, INC. 259
• OBDUCAT AB 259
• ORTHOVITA, INC. 260
• PHARMASOL GMBH 260
• PIONEER SURGICAL TECHNOLOGY 261
• POLYSCIENCES INC. 261
• PSIVIDA LTD. 261
• QD VISION, INC. 262
• QUANTUMSPHERE, INC. 262
• RAVE, LLC 263
• RHODIA SA 263
• RITDISPLAY CORP. 263
• ROHM AND HAAS CO. 264
• ROSSETER HOLDINGS, LTD. 264
• RBC LIFE SCIENCES, INC. 264
• RTP CO. 265
• SACHTLEBEN CHEMIE 265
• SHENZHEN NANO-TECH PORT CO., LTD. 265
• SHOWA DENKO K.K. 266
• SIM COMPOSITES, INC. 266
• SKYEPHARMA PLC 267
• SOLARONIX SA 267
• SOUTHERN CLAY PRODUCTS, INC. 268
• SOUTHWEST NANOTECHNOLOGIES, INC. 268
• SUD-CHEMIE AG 269
• 3RDTECH, INC. 269
• TAYCA CORP. 270
• TOHOKU PIONEER CORP. 270
• TOTO LTD. 270
• TPL, INC. 271
• UBE INDUSTRIES, LTD. 271
• N.V. UMICORE S.A. 272
• UNIDYM 272
• UNITIKA, LTD. 272
• UNIVERSAL DISPLAY CORP. 273
• U.S. NANOCORP, INC. 273
• VEECO INSTRUMENTS, INC. 274
• WILSON SPORTING GOODS CO. 274
• XEROX CORP. 274
• XINTEK, INC. 275
• ZETTACORE 275
• ZYVEX CORP. 276

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