目次
価格・ご注文について この調査レポートは、帯電防止製品とその材料の市場を調査し、技術動向や市場予測を掲載しています。
Materials and products designed to lessen the impact of static electricity represent a relatively mature market, but one in which new opportunities are beginning to emerge. On the demand side, increased miniaturization of PCBs and hard drives coupled with ever smaller devices on computer chips will increase the threats of damage and costs caused by static electricity; we believe that this will provide the ESD products and coatings market with growth for years to come.
Antistatic concerns are also growing at both the manufacturing and packaging levels. At the same time, technological improvements in ESD coatings are to be expected, especially in the vibrant areas of nanomaterials and conductive polymers.
In this report, NanoMarkets will identify and quantify the new opportunities in ESD products and materials that are emerging as a result of the increased antistatic concerns discussed above. This report is a follow-on report from the well-received industry analysis on antistatic coatings that NanoMarkets carried out for its conductive coatings market study published last year. In this report, we extend the coverage across the entire ESD/antistatic product and material value chain to include not just basic materials but also laminates, films and other materials, as well higher value products such as bags, garments and flooring.
Executive Summary
E.1 Introduction: The Increasing ESD Threat
E.1.1 The End of Moore's Law? Not Yet
E.2 Emerging Opportunities for New Materials in ESD Protection
E.2.1 Opportunities for Conductive Polymers
E.2.2 Opportunities for Carbon Nanotubes
E.2.3 Opportunities for Transparent Conductive Materials
E.3 New Directions and Opportunities for Value-Added ESD Products and Applications
E.4 Firms to Watch in the ESD Products and Materials Space
E.5 Summary of Forecasts for ESD Products and Materials Markets
Chapter One: Introduction
1.1 Background to this Report
1.1.1 ESD Applications and Products
1.1.2 ESD Materials
1.2 Objectives and Scope of this Report
1.3 Methodology of this Report
1.4 Plan of this Report
Chapter Two: ESD Technologies, Materials, and Products
2.1 Overview and Classification of ESD Materials and Products
2.1.1 Conductive vs. Dissipative vs. Antistatic Materials
2.1.2 Antistatic Agents: Internal and External
2.1.3 The ESD/Antistatic Value Chain
2.2 Polymers and Organics for ESD Protection Applications
2.2.1 The "Big Three" Conductive Polymers
2.2.2 Other Conductive Polymers for ESD Applications
2.2.3 Migrating Antistatic Materials
2.2.4 Key Suppliers of Conductive Polymers for ESD/Antistatic Applications
2.3 Transparent Conductive Oxides: Tin Oxide, Zinc Oxide, and ITO
2.3.1 ITO
2.3.2 Tin Oxide
2.3.3 Zinc Oxide
2.4 Metals for ESD Protection Applications
2.4.1 Making Metal a Poor Conductor: Dissipative Strategies for ESD Protection
2.4.2 Metal Nanoparticles and ESD
2.5 Carbon Materials for ESD Protection Applications
2.5.1 Carbon as a Coating or a Fiber
2.5.2 Carbon-Filled Polymers
2.5.3 Carbon Nanotubes and Graphene for ESD Applications
2.6 Intermediate Products: ESD Sheets, Films, Fabrics, etc.
2.7 ESD Packaging
2.7.1 Rigid Packaging
2.7.2 Flexible ESD Bags
2.8 Value-Added ESD Products
2.8.1 Personal Grounding: Straps, Wristbands, Shoes, and Shoe Grounders
2.8.2 Antistatic Mats
2.8.3 Antistatic Clothing: Conventional and for Cleanrooms
2.8.4 Antistatic Furniture
2.8.5 Antistatic Flooring, Carpet, and Floor Waxes
2.9 Other ESD Devices
2.9.1 Antistatic Ionizers and Sprays
2.9.2 ESD Monitoring Equipment
2.10 Key Points Made in this Chapter
Chapter Three: Applications and Markets for ESD Products and Antistatic Coatings
3.1 Introduction: Overview of Markets Requiring ESD Protection
3.1.1 Electronics Manufacturing
3.1.2 Shipping, Transport, and Storage
3.1.3 Other Applications
3.2 Electronics Manufacturing
3.2.1 Cleanroom Requirements
3.2.2 Static Control in the Semiconductor Fab
3.2.3 Static Control for Discrete Components and Assembly
3.2.4 Disk Drives and Ultra Low Static Control
3.3 Electronics Packaging
3.3.1 Shipping and Transport of Wafers
3.3.2 Shipping and Transport of Discrete Components and Circuit Boards
3.4 Data Room Applications
3.4.1 General Environmental Controls
3.4.2 Maintenance Operations
3.5 Glass Treatments
3.5.1 Window Treatments
3.5.2 Displays, Lenses, and Other
3.6 Antistatics as Fire Preventatives
3.6.1 Fuel Systems and Fuel Delivery
3.6.2 Fuel Additives
3.7 Key Points Made in this Chapter
Chapter Four: Eight-Year Forecasts of Antistatic and ESD Materials, Products, and Markets
4.1 Forecasting Methodology
4.1.1 Data Sources
4.1.2 Scope of Forecast
4.1.3 Alternative Scenarios and Other Factors Taken into Consideration
4.2 Forecasts of ESD/Antistatic Materials by Type
4.3 Forecasts of ESD/Antistatic Products by Type
4.3.1 Forecasts of ESD Clothing
4.3.2 Forecasts of ESD Packaging
4.3.3 Forecasts of ESD Flooring
4.3.4 Forecasts of ESD Furniture
4.3.5 Forecasts of ESD Automotive Parts
4.3.6 Forecasts of ESD Glass Coatings
4.4 Eight-Year Forecasts of ESD/Antistatic Markets by End User Type
4.5 Summary of Forecasts
Acronyms and Abbreviations Used in this Report
About the Author
List of Exhibits
Exhibit E-1: Summary Forecast of ESD Products by Product Type, $ Millions
Exhibit E-2: Summary of Eight-Year Forecast of ESD Products by Material Type, $ Millions
Exhibit 4-1: Eight-Year Forecast of ESD Materials by Material Type, $ Millions
Exhibit 4-2: Eight-Year Forecast of ESD Products by Product Type, $ Millions
Exhibit 4-3: Eight-Year Forecast of ESD Clothing Volumes
Exhibit 4-4: Eight-Year Forecast of ESD Clothing by ESD Material Type, $ Millions
Exhibit 4-5: Eight-Year Forecast of ESD Packaging Volumes
Exhibit 4-6: Eight-Year Forecast of ESD Packaging by ESD Material Type, $ Millions
Exhibit 4-7: Eight-Year Forecast of ESD Flooring Volume
Exhibit 4-8: Eight-Year Forecast of ESD Flooring by ESD Material Type, $ Millions
Exhibit 4-9: Eight-Year Forecast of ESD Mats by ESD Material Type, $ Millions
Exhibit 4-10: Eight-Year Forecast of ESD Furniture by ESD Material Type, $ Millions
Exhibit 4-11: Eight-Year Forecast of ESD Parts by ESD Material Type, $ Millions
Exhibit 4-12: Eight-Year Forecast of ESD Coated Glass Products by ESD Material Type, $ Millions
Exhibit 4-13: Eight-Year Forecast of ESD Products by End User Type, $ Millions
Exhibit 4-14: Summary of Eight-Year Forecast of ESD Materials by Material Type, $ Millions
Exhibit 4-15: Summary of Eight-Year Forecast of ESD Products by End User Type, $ Millions
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帯電防止はムーアの法則拡大のキーとなる
ヴァージニア州グレンアレン、2010年3月16日
米国調査会社ナノマーケット社の調査レポート「帯電防止製品と材料の市場調査:市場動向、技術、市場予測 - ESD Products and Materials: Markets and Opportunities」は、半導体産業がより小さなサイズのノードを模索していることから、静電気による損傷を免れるための帯電防止製品の需要が急増するだろうと報告している。より多くの、よりよい帯電防止製品と材料がなければ、半導体産業のムーアの法則の厳守は失速し始めるだろう。ナノマーケット社は、下記のような調査結果を得た。
- 半導体産業が、オンチップと工場内/出荷後の取り扱いにおいて、ますますより効果的な帯電防止製品を求めるようになるので、電子産業の帯電防止製品の消費は、2015年に4億8000万ドルを上回るだろう。縮小する回路のために帯電防止戦略を改善しないあらゆる半導体企業は、歩留まりが激減するだろうとナノマーケット社は予測している
- 電子産業のバリューチェーンのあらゆるレベルで帯電防止の需要が急増し、帯電防止の箱や袋の市場を促進する革新的なパッケージソリューションがリードして、2015年に9億4000万ドルと現在の約2倍の規模まで拡大するだろう。同時に、コンピュータの保守や修理の際にチップが危険にさらされるエンドユーザレベルでも、帯電防止の需要が高まるだろう。例えば2015年には、データセンターが1億ドルの帯電防止製品を購入し、今日の購入金額の約3倍にまで増加するだろう。
(後略)
(原文)
New NanoMarkets Report Claims That Electrostatic Discharge Protection Will Key to Extending Moore's Law
March 16, 2010
Glen Allen, Virginia: According to a new report from NanoMarkets, a leading industry analyst firm based here, the semiconductor industry's quest to achieve smaller and smaller node sizes will boost the demand for electrostatic discharge (ESD) protection products needed to offset the increased vulnerability of devices to static electricity.Indeed, NanoMarkets claims that without more and better ESD products and materials, the semiconductor industry's adherence to Moore's Law will begin to run out of steam.
Key findings of the report:
The consumption of ESD products by the electronics industry will reach more than $480 million ($US) by 2015 as the semiconductor industry will increasingly be on the lookout for more effective ESD protection for both on-chip and in-fab applications and post-fab handling. NanoMarkets believes that any semiconductor firms that fail to do not upgrade their ESD strategies for shrinking circuits will watch their yields drop through the floor.
The need for ESD protection at every level of the electronics value chain will increase significantly which is expected to lead to innovative packaging solutions driving the market for ESD protected boxes and bags up to $940 million by 2015, almost twice the size it is today. At the same time, there will be more need for ESD protection at the end user level wherever chips are exposed for computer maintenance and repair. By 2015, for example, data centers are expected to be buying over $100 million in ESD products, almost three times the value of such purchases today.
By 2015 NanoMarkets projects that ESD materials of all kinds will generate revenues of just under $2.0 billion. However, new materials will be required to meet the more demanding needs for ESD protection since older forms of carbon such as carbon black and graphite may prove ineffective in future electronics manufacturing operations because they tend to produce too many dust particles. By contrast, newer carbon nanotube materials and conductive polymers are expected to grow rapidly in antistatic treatments of all kinds.
By 2015 the entire ESD products market will be worth just over $8 billion. NanoMarkets also notes that the major opportunities will mostly arise in the area of high value-added product. For example, the report notes that one of the fastest growing ESD products will be dissipative boxes, which are generally made of carbon impregnated corrugated or carbon filled molded materials. ESD flooring, and monitors for static charges and fields will also see rapid growth over the forecast period.
About the report:
NanoMarkets' new report, ESD Products and Materials: Markets and Opportunities provides a complete analysis of the commercial opportunities for ESD products and the materials used. The coverage comprises both materials (including the latest based on carbon nanotubes, and conductive polymers) and products (ranging from wrist straps to antistatic furniture to fuel additives). All applications are covered including electronics manufacturing, data centers, packaging, automotive, glass coating, and antistatic additives for both the laundry and fuel.
This report also includes detailed forecasts broken out by materials, applications, and products as well as discussions of the activities of firms including 3M, Agfa, Bayer, Eeonyx, Enthone, H.C. Starck, Hyperion Catalysis, Innospec, Ion Systems (MKS), K and K Advanced Textile Solutions, Nanocyl, Panipol, Staticworx, and TREK.
