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市場調查報告書

量子點:全球市場成長及未來商業展望

Quantum Dots: Global Market Growth and Future Commercial Prospects

出版商 BCC Research
出版日期 2011年02月 商品編碼 174956
內容資訊 英文 344 Pages
價格
US $ 4850 PDF by E-mail ( Single User License)
US $ 5950 PDF by E-mail (Business Unit License)
US $ 8500 PDF by E-mail (Enterprise License)


量子點:全球市場成長及未來商業展望 是由出版商BCC Research在2011年02月所出版的。 這份英文市場調查報告書包含344 Pages 價格從美金4850起跳。

簡介

2010年全球量子點市場收益,推測為6700萬美金,本市場今後5年之CAGR將可達59.6%,預計2015年間將增加10倍,達到6億7000萬美金之規模。

本報告為,提供全球量子點市場技術概要、專利趨勢、競合分析、應用別市場趨勢/分析等,以下列摘要形式闡述。

第1章 簡介

第2章 實施概要

第3章 技術概要

  • 何謂量子點
  • 量子點之歷史
  • 量子點之特性
  • 量子點產業
  • 量子點應用及結構類型
  • 基本結構
  • 複合結構
  • 專利分析
  • 量子點製造(合成)及設備組裝
  • 金屬硫族化合物量子點之合成
  • 奈米結晶矽量子點之合成
  • 奈米結晶金屬及量子點之合成
  • 碳量子點之合成
  • 量子點結構之組成

第4章 專利分析

第5章 產業結構、競合分析

  • 量子點之製造商
  • 量子點類之商業應用平台
  • 國際性量子點競合
  • 市場驅力
  • 成長重要因素
  • 量子點產業之挑戰
  • 貿易實務/法規議題及資訊
  • 產業發展階段

第6章 應用別市場

  • 生技及生物醫療
  • 生技
  • 生物醫療
  • 光電
  • 光學零件
  • 安全性
  • 永續能源

第7章 市場分析

  • 量子點之商業製造商
  • 生物學及生物醫療量子點之市場展望
  • 儲存應用量子點之市場展望
  • 固體/可撓式白色LED照明及顯示器量子點之市場展望
  • 光纖通訊量子點之市場展望
  • 安全應用量子點之市場展望
  • 太陽能電池技術量子點之市場展望
  • 其他能源技術量子點之市場展望
  • 其他應矚目領域量子點之市場展望

圖表

目錄

Abstract

REPORT HIGHLIGHTS

The global market for quantum dots (QDs) in 2010 was worth an estimated $67 million in revenues. This market is projected to grow over the next 5 years at a compound annual growth rate (CAGR) of 59.3%, reaching almost $670 million by 2015, representing a tenfold increase.

Optoelectronics represents one of the greatest market sectors. This area was launched in 2010 and is expected to increase at a 128.4% compound annual growth rate (CAGR) to reach a value of $310 million in 2015.

The established in the biomedical sector was valued at $48 million in 2010. This sector is expected to increase at a 30% compound annual growth rate (CAGR) to reach a value of $179 million in 2015.

SUMMARY FIGURE
GLOBAL MARKET REVENUE FOR QUANTUM DOTS IN PROMISING MARKET SECTORS, 2009 - 2015
($ MILLIONS)

image1

REPORT SCOPE

INTRODUCTION

MOTIVATION

Among the many subsets of nanomaterials, quantum dots (QDs) are like no other. At dimensions typically below 10 nanometers (nm), nanocrystalline (nc) semiconductors (SC), metals, and magnetic materials can all exhibit extraordinary quantum confinement phenomenon. Basically, at these dimensions, their physical size encroaches upon the fundamental quantum confinement dimensions of orbiting electrons that are uniquely prescribed by their atomic nucleus. Within the regime of these critical dimensions, QDs exhibit distinctly different behavior from their bulk form, which manifests itself, for example, in distinctly different optical, electronic, and magnetic properties. Today, scientists can precisely synthesize nanocrystalline materials at these critical dimensions and thereby systematically tune their quantum confining behavior. As a result, there is currently enormous interest in exploiting and capitalizing on the unique properties exhibited by QD materials. As a harbinger for future business developments, colloidal QD-bioconjugates are among the first wave of commercial product applications stimulating market interest. Primarily, these have quickly established a niche market in the life sciences and biomedical communities, where they provide unrivalled cellular imaging and therapeutic detection capabilities. Other promising prototype developments of SC QDs now on the commercial-horizon include: a new generation of flash memory devices; nanomaterial enhancements for improving the performance of flexible organic light-emitting diodes (LEDs), as well as solid-state white-LED lighting; and a core technology used in flexible solar panel coatings.

With these impending commercial developments and their enormous business potential, this report provides a timely assessment of quantum dot materials - where they currently are, and where they might be in the foreseeable future.

STUDY GOAL AND OBJECTIVES

The primary objective of this report is threefold: (1) to assess the current state-of-the-art in synthesizing QDs; (2) to identify the current market players seeking to exploit QD behavior; and (3) to evaluate actual or potential markets in terms of application, type, and projected market revenues.

SCOPE OF REPORT

Since their simultaneous discovery in Russia and the U.S. almost 30 years ago, SC QDs, until quite recently, have resided exclusively in the domain of solid state physics, where they have been fabricated using expensive and sophisticated molecular beam epitaxy (MBE) or chemical vapor deposition (CVD) equipment. However, in a relatively short time frame this situation has changed dramatically with the recent commercial availability of colloidal QDs synthesized by less expensive wet-chemical processes. Practically, the availability of QDs in a colloidally dispersed form will help demystify these somewhat esoteric materials. Most importantly, colloidal-QDs now provide access to a much broader audience, which promises to further widen their potential market exploitation.

Current and future applications of QDs impact a broad range of industrial markets. These include, for example, biology and biomedicine; computing and memory; electronics and displays; optoelectronic devices such as LEDs, lighting, and lasers; optical components used in telecommunications; and security applications such as covert identification tagging or biowarfare detection sensors.

This report probes in considerable depth the early pioneers and champions in this field both in industry, government, and academic laboratories. The most active organizations, promising technical applications, and developments realizable within the next 5 years, will all be highlighted.

INTENDED AUDIENCE

This report represents a major update of the BCC Research report (NAN027B) Quantum Dots: Technologies and Commercial Prospects, published in September 2008. The most significant revisions in the new edition include:

  • An extensive updated patent analysis (2008 to 2010)
  • An in-depth assessment of the unfolding commercial markets
  • Progress in the synthesis and commercial scaleup by QD producers
  • Updated company profiles of the producers and end users dictating market development
  • Updated 5-year market projection analysis of the emerging QD market

This is the third exclusive report to focus on QD nanomaterials from the perspective of their technology, applications, and future business prospects. Thus, this up-to-date technical assessment and business analysis should prove an especially valuable resource to individuals and organizations seeking more insight into the current status of QDs, their stand-alone capabilities within the spectrum of nanomaterials, and time-to-market commercial development. The report' s comprehensive technical and business assessment on the current status of the QD-based industry should prove informative to nanomaterials manufacturers, investors seeking near-term commercialization opportunities, technologists confronted with nanomaterial device integration issues, and companies specifically interested in exploiting QDs in biological, biomedical, electronics, energy, optics, optoelectronics, and security applications.

METHODOLOGY AND SOURCES OF INFORMATION

Both primary and secondary research methodologies were used in preparing this report. This report is primarily derived from the enormous amount of patent and technical literature relating to QDs disclosed in the public domain. In addition, complementary information has also been drawn from the business community, such as company investment news, company profiles, press releases, and personal telephone interviews with selected companies.

Table of Contents

Chapter- 1: INTRODUCTION - Complimentary

  • MOTIVATION
  • STUDY GOAL AND OBJECTIVES
  • SCOPE OF REPORT
  • INTENDED AUDIENCE
  • METHODOLOGY AND SOURCES OF INFORMATION
  • ANALYST CREDENTIALS
  • RELATED BCC REPORTS
  • BCC ONLINE SERVICES
  • DISCLAIMER

Chapter- 2: EXECUTIVE SUMMARY

Chapter- 3: TECHNOLOGY OVERVIEW

  • WHAT IS A QUANTUM DOT?
  • HISTORY OF QUANTUM DOTS
  • PROPERTIES OF QUANTUM DOTS
  • QUANTUM DOT INDUSTRY
  • APPLICATIONS AND STRUCTURAL TYPES OF QUANTUM DOTS
  • BASIC STRUCTURES
  • COMPOSITE STRUCTURES
  • PATENT ANALYSIS
  • QUANTUM DOT PRODUCTION (SYNTHESIS) AND DEVICE ASSEMBLY
  • SYNTHESIS OF METAL CHALCOGENIDE QUANTUM DOTS
  • SYNTHESIS OF NANOCRYSTALLINE SILICON QDS
  • SYNTHESIS OF NANOCRYSTALLINE METALS AND QDS
  • SYNTHESIS OF CARBON QUANTUM DOTS
  • ASSEMBLY OF QUANTUM DOT STRUCTURES
  • Table 13 : QUANTUM DOT STRUCTURE ASSEMBLY METHODS

Chapter- 4: PATENT ANALYSIS

  • RATIONALE AND METHODOLOGY
  • U.S. PATENT AND TRADEMARK OFFICE (USPTO) SEARCH

Chapter- 5: INDUSTRY STRUCTURE AND COMPETITIVE ANALYSIS

  • QUANTUM DOT PRODUCERS
  • COMMERCIAL QD-BASED APPLICATION PLATFORMS
  • FOREIGN COMPETITION IN QUANTUM DOTS
  • DRIVING FORCES IMPACTING QD INDUSTRY
  • IMPORTANT FACTORS NURTURING GROWTH
  • CHALLENGES AND ISSUES FACING THE QD INDUSTRY
  • TRADE PRACTICES/REGULATORY ISSUES AND INFORMATION
  • EVOLUTIONARY STAGE OF INDUSTRY

Chapter- 6: MARKETS BY APPLICATION

  • BIOTECHNOLOGY AND BIOMEDICINE
  • BIOTECHNOLOGY
  • BIOMEDICINE
  • ELECTRONICS
  • OPTOELECTRONICS
  • OPTICAL COMPONENTS
  • SECURITY
  • SUSTAINABLE ENERGY

Chapter- 7: MARKET ANALYSIS

  • QD COMMERCIAL PRODUCERS
  • MARKET PROSPECTS FOR QDS IN BIOLOGY AND BIOMEDICINE
  • MARKET PROSPECTS FOR QDS IN MEMORY APPLICATIONS
  • MARKET PROSPECTS FOR QDS IN RIGID AND FLEXIBLE LED WHITE LIGHTING AND DISPLAYS
  • MARKET PROSPECTS FOR QDS IN OPTICAL COMMUNICATION
  • MARKET PROSPECTS FOR QDS IN SECURITY APPLICATIONS
  • MARKET PROSPECTS FOR QDs IN SOLAR CELL TECHNOLOGY
  • MARKET PROSPECTS FOR QDS IN OTHER ENERGY TECHNOLOGIES
  • MARKET PROSPECTS FOR QDs IN OTHER PROMISING SECTORS

Chapter- 8: ACRONYMS, ABBREVIATIONS, AND UNITS

  • ACRONYMS AND ABBREVIATIONS
  • UNITS

List of Tables

  • Summary Table : GLOBAL MARKET REVENUE FOR QUANTUM DOTS IN PROMISING MARKET SECTORS, THROUGH 2015
  • Table 1 : CHRONOLOGICAL EVOLUTION OF QDS: FROM RESEARCH CURIOSITY THROUGH COMMERCIAL DEVELOPMENT, 1960s-2010
  • Table 10 : QUANTUM DOT PRODUCTION METHODS: SOLID PHASE
  • Table 100 : PREDICTED REVENUE GROWTH FOR BIOCONJUGATE QDS, 2010 - 2015
  • Table 101 : QD AND OTHER FUTURE NANOMATERIALS-BASED MEMORY ARCHITECTURES
  • Table 102 : PROJECTED MARKET REVENUES GENERATED BY FREESCALE' S QD-BASED MEMORY PRODUCTS, THROUGH 2015
  • Table 103 : MAJOR ISSUES CONFRONTING THE IMPENDING USE OF QDS IN SSL WLED TECHNOLOGY
  • Table 104 : PROJECTED RIGID AND FLEXIBLE QD-LED LIGHTING REVENUES, THROUGH 2015
  • Table 105 : MAJOR PERFORMANCE ISSUES CONFRONTING OLED DISPLAY TECHNOLOGY AND POTENTIAL ENHANCEMENTS PROVIDED BY QDS
  • Table 106 : PROJECTED RIGID AND FLEXIBLE DISPLAY REVENUES GENERATED BY QD-BASED PRODUCTS, THROUGH 2015
  • Table 107 : PROJECTED REVENUES FOR QD-BASED OPTICAL TELECOMMUNICATION AND PORTABLE COMMUNICATION DEVICES, THROUGH 2015
  • Table 108 : CLASSIFICATION OF COVERT QD SECURITY APPLICATIONS BY MARKET SECTOR
  • Table 109 : MAJOR ISSUES CONFRONTING THE IMPENDING USE OF COLLOIDAL QDs IN SOLAR CELL TECHNOLOGY
  • Table 11 : VARIOUS METHODS USED FOR SI-NC SYNTHESIS
  • Table 110 : COMPLEMENTARY ACTIVITIES SHAPING COMMERCIAL DEVELOPMENTS IN SOLAR PHOTOVOLTAICS
  • Table 111 : PROJECTED MARKET REVENUES GENERATED BY QD-BASED SECOND- AND THIRD-GENERATION SOLAR CELL PRODUCTS, THROUGH 2015
  • Table 12 : VARIOUS SYNTHETIC METHODS AND PHOTOPHYSICAL BEHAVIOR OF METAL-NCS
  • Table 13 : QUANTUM DOT STRUCTURE ASSEMBLY METHODS
  • Table 14 : INDUSTRIAL SECTORS AND EXEMPLARY APPLICATIONS EMERGING FROM ISSUED U.S. QD-PATENTS, 2008 - 2010
  • Table 15 : LEADING U.S. SMALL BUSINESSES GRANTED MUTIPLE PATENTS FOR QD-RELATED TECHNOLOGY, 2008 - JULY 1, 2010
  • Table 16 : OTHER U.S. SMALL BUSINESSES GRANTED MULTIPLE PATENTS FOR QD-RELATED TECHNOLOGY, 2008 - JULY 1, 2010
  • Table 17 : LEADING U.S. LARGE BUSINESSES GRANTED MUTIPLE PATENTS IN QD-RELATED TECHNOLOGY, 2008 - JULY 1, 2010
  • Table 18 : U.S. ACADEMIC INSTITUTIONS GRANTED MULTIPLE PATENTS IN QD-RELATED TECHNOLOGY, 2008 - JULY 1, 2010
  • Table 19 : U.S. GOVERNMENT AND OTHER INSTITUTIONS GRANTED MULTIPLE PATENTS IN QD-RELATED TECHNOLOGY, 2008 - JULY 1, 2010
  • Table 2 : COMPARISON OF EMISSION WAVELENGTH OF SC AND METAL NC QUANTUM DOTS AS A FUNCTION OF THEIR SIZE
  • Table 20 : LEADING JAPANESE ORGANIZATIONS GRANTED MULTIPLE PATENTS IN QD-RELATED TECHNOLOGY, 2008 - JULY 1, 2010
  • Table 21 : LEADING ORGANIZATIONS IN OTHER ASIAN COUNTRIES GRANTED PATENTS IN QD-RELATED TECHNOLOGY, 2005 - 2007
  • Table 22 : LEADING ORGANIZATIONS IN EUROPE AND OTHER COUNTRIES GRANTED PATENTS IN QD-RELATED TECHNOLOGY, 2008 - JULY 1, 2010
  • Table 23 : LEADING ORGANIZATIONS IN REST OF THE WORLD COUNTRIES GRANTED PATENTS IN QD-RELATED TECHNOLOGY, 2008 - JULY 1, 2010
  • Table 24 : MAJOR U.S. GOVERNMENT AGENCIES FUNDING QD-BASED RESEARCH
  • Table 25 : CURRENT PRODUCERS OF COLLOIDAL QUANTUM DOTS (CQDS)
  • Table 26 : EVIDENT TECHNOLOGIES QUANTUM DOT GRADES
  • Table 27 : RECENT BUSINESS DEVELOPMENTS AT EVIDENT TECHNOLOGIES
  • Table 28 : U.S. LARGE CORPORATIONS INTERESTED IN SOLID-STATE SYNTHESIS OF QDS BASED ON PATENT ANALYSIS, 2008 - 2010*
  • Table 29 : PROPONENTS OF COMMERCIAL QD-BASED PRODUCT APPLICATION PLATFORMS
  • Table 3 : OTHER PROPERTIES OF COLLOIDAL QUANTUM DOTS
  • Table 30 : NANOSYS' LATEST QD-FOCUSED BUSINESS DEVELOPMENTS
  • Table 31 : NANOSYS' EARLIER NANOMATERIALS-BASED BUSINESS DEVELOPMENTS, 2005-2008
  • Table 32 : LEADING ASIAN COMPANIES CURRENTLY DEVELOPING SOLID-STATE - BASED, QD-BASED DEVICES
  • Table 33 : EUROPEAN AND OTHER FOREIGN ORGANIZATIONS CURRENTLY INVOLVED IN COMMERCIALLY DEVELOPING SOLID-STATE QD - BASED DEVICES
  • Table 34 : PROCESS SYNTHESIS AND DEVICE FABRICATION PARADIGMS FOR COLLOIDAL-QDS
  • Table 35 : RECENT DEVICE FABRICATION DEVELOPMENTS FOR COLLOIDAL-QDS
  • Table 36 : MAJOR ISSUES AND CHALLENGES FACING THE COLLOID QD INDUSTRY
  • Table 37 : RECENT R&D STUDIES IN THE NANOTOXICOLOGY OF QD SYSTEMS
  • Table 38 : RECENT R&D IN NON-TOXIC QD SYSTEMS
  • Table 39 : RECENT DEVELOPMENT IN NANOMATERIALS SAFETY AND IMPENDING REGULATION
  • Table 4 : HIERARCHY AND VARIOUS TYPES OF QDS: BASIC STRUCTURES
  • Table 40 : COMMERCIALLY PROMISING SECTORS WITH FIRST-GENERATION OR PROTOTYPE QD-BASED PRODUCTS
  • Table 41 : ADVANTAGES OF QUANTUM DOTS AS BIOLOGICAL LABELS
  • Table 42 : U.S. PATENTS ISSUED AND FILED ON QD BIOLABEL SYNTHESIS, 2001 - 2003
  • Table 43 : U.S. PATENTS ISSUED AND FILED ON QD BIOTECHNOLOGY, MOLECULAR SPECIES DIAGNOSIS/DETECTION, 2001 - 2003
  • Table 44 : U.S. PATENTS ISSUED ON QD BIOTECHNOLOGY APPLICATIONS ON ANALYTICAL/INSTRUMENT METHODS, 2001 - 2003
  • Table 45 : U.S. PATENTS ISSUED ON QD-BIOTECHNOLOGY APPLICATIONS ON SENSOR AND MICRO-ARRAY APPLICATIONS, 2001 - 2003
  • Table 46 : COMPANIES LEADING QD-BIOTECHNOLOGY/MEDICAL APPLICATIONS BASED ON U.S. PATENT ACTIVITY, 2005 - 2008
  • Table 47 : COMPANIES LEADING QD-BIOTECHNOLOGY/MEDICAL APPLICATIONS BASED ON U.S. PATENT ACTIVITY, 2008 - OCTOBER 28, 2010
  • Table 48 : THE MOST ACTIVE UNIVERSITIES INVOLVED IN QD-BIOTECHNOLOGY APPLICATIONS ACCORDING TO U.S. PATENTS ISSUED, 2005 - 2007
  • Table 49 : LEADING UNIVERSITIES AND HOSPITALS INVOLVED IN QD-BIO/MEDICAL APPLICATIONS ACCORDING TO U.S. PATENTS, 2008 - OCTOBER 28, 2010
  • Table 5 : HIERARCHY AND VARIOUS TYPES OF QDS: COMPOSITE STRUCTURES
  • Table 50 : QD MEDICAL APPLICATIONS DERIVED FROM U.S. PATENTS: 2000 - 2004
  • Table 51 : QD MEDICAL APPLICATIONS DERIVED FROM U.S. PATENTS, 2005 - 2007
  • Table 52 : NOVEL QD-BASED DEVICES AND APPLICATIONS IN ELECTRONICS
  • Table 53 : U.S. PATENT-BASED DEVELOPMENTS IN QD INTEGRATION USING CONVENTIONAL MICROELECTRONIC TECHNOLOGY, 1999 - 2004
  • Table 54 : U.S. PATENT-BASED DEVELOPMENTS IN QD INTEGRATION USING CONVENTIONAL MICROELECTRONIC TECHNOLOGY, 2005 - 2007
  • Table 55 : U.S. PATENT-BASED DEVELOPMENTS IN QD INTEGRATION INTO UNCONVENTIONAL NANOELECTRONIC TECHNOLOGY, 1999 - 2003
  • Table 56 : U.S. PATENT-BASED DEVELOPMENTS IN QD INTEGRATION USING UNCONVENTIONAL MICROELECTRONIC TECHNOLOGY, 2005 - 2007
  • Table 57 : U.S. PATENT-BASED DEVELOPMENTS IN UNCONVENTIONAL QD-BASED MICROELECTRONIC TECHNOLOGY, 2008 - 2010
  • Table 58 : U.S. PATENT-BASED QD DEVELOPMENTS IN QUANTUM COMPUTERS, 1999 - 2004
  • Table 59 : U.S. PATENT-BASED QD DEVELOPMENTS IN QUANTUM COMPUTERS AND QUANTUM CRYPTOGRAPHY, 2005 - 2007
  • Table 6 : QD MATERIAL TYPES AND THEIR COMMERCIAL APPLICATIONS
  • Table 60 : U.S. PATENT-BASED QD DEVELOPMENTS IN QUANTUM COMPUTERS AND QUANTUM CRYPTOGRAPHY, 2008 - 2010
  • Table 61 : U.S. PATENT-BASED QD DEVELOPMENTS IN MEMORY DEVICES, 1999 - 2004
  • Table 62 : U.S. PATENT-BASED QD DEVELOPMENTS IN MEMORY DEVICES, 2005 - 2007
  • Table 63 : U.S. PATENT-BASED QD DEVELOPMENTS IN MEMORY DEVICES, 2008 - 2010
  • Table 64 : U.S. PATENT-BASED QD DEVELOPMENTS IN DISPLAY TECHNOLOGIES, 2005 - 2007
  • Table 65 : LATEST U.S. PATENT-BASED QD DEVELOPMENTS IN DISPLAY TECHNOLOGIESM, 2008 - 2010
  • Table 66 : BENEFITS OF QD-LEDS OVER OTHER DISPLAY TECHNOLOGIES
  • Table 67 : LATEST DEVELOPMENTS IN QD VISION' S SOLID STATE LIGHTING AND DISPLAY TECHNOLOGIES
  • Table 68 : PROFILE OF SOME EMERGING FLEXIBLE DISPLAY MARKET PLAYERS
  • Table 69 : U.S. PATENT-BASED QD DEVELOPMENTS 2005 - 2007 IN LASERS AND LASER DIODES AND RELATED DEVICES AMONG U.S. ORGANIZATIONS
  • Table 7 : KEY QUANTUM DOT TECHNOLOGIES AND APPLICATIONS
  • Table 70 : U.S. PATENT-BASED QD DEVELOPMENTS IN LASER DIODES AND RELATED DEVICES AMONG FOREIGN ORGANIZATIONS, 2005 - 2007
  • Table 71 : ORGANIZATIONS LEADING U.S. PATENT-BASED QD DEVELOPMENTS IN LASER DIODES AND RELATED DEVICES, 2008 - 2010
  • Table 72 : ADVANTAGES OF QD DIODE LASERS
  • Table 73 : ROADMAP RECOMMENDATIONS FOR SSL-LED TECHNOLOGY/ LAMP TARGETS
  • Table 74 : IMPORTANT PLAYERS IN GROWING WLED SSL INDUSTRY
  • Table 75 : U.S. PATENT-BASED QD DEVELOPMENTS IN LEDS AND RELATED DEVICES AMONG U.S. ORGANIZATIONS, 2005 - 2007
  • Table 76 : U.S. PATENT-BASED QD DEVELOPMENTS IN LEDS AND RELATED DEVICES AMONG FOREIGN ORGANIZATIONS, 2005 - 2007
  • Table 77 : ORGANIZATIONS LEADING U.S. PATENT-BASED QD DEVELOPMENTS IN LEDS AND LIGHTING APPLICATIONS, 2008 - 2010
  • Table 78 : PROPERTY COMPARISON OF COLLOIDAL QDS AND CONVENTIONAL LED PHOSPHORS
  • Table 79 : COLLOIDAL QD-BASED SOLID STATE WHITE LIGHTING: ENABLING FEATURES AND FUTURE TECHNICAL CHALLENGES
  • Table 8 : QUANTUM DOT PRODUCTION METHODS: VAPOR PHASE
  • Table 80 : U.S. PATENT-BASED QD DEVELOPMENTS IN OPTICAL COMPONENTS AND RELATED DEVICES, 1999 - 2004
  • Table 81 : RECENT U.S. PATENT-BASED QD DEVELOPMENTS IN OPTICAL COMPONENTS, 2005 - 2008
  • Table 82 : LEADING ORGANIZATIONS WITH U.S. PATENT-BASED QD DEVELOPMENTS IN OPTICAL COMPONENTS, 2008 - 2010
  • Table 83 : KEY ORGANIZATIONS INVOLVED IN SECURITY APPLICATIONS OF QDS OR COMPETITIVE MARKING MATERIALS
  • Table 84 : QD SECURITY APPLICATIONS PATENTS, 2005 - 2008
  • Table 85 : QD SECURITY APPLICATIONS PATENTS, 2008 - 2010
  • Table 86 : RECENT INTERNATIONAL CONFERENCES FOCUSING ON NEW SECURITY DEVELOPMENTS
  • Table 87 : ADVANTAGES OF FLEXIBLE POLYMER-BASED DESIGNS OVER CONVENTIONAL RIGID SOLAR CELL DESIGNS
  • Table 88 : SOME ADVANTAGES OF COLLOIDAL QDS OVER ORGANIC DYES USED IN PHOTOVOLTAIC SOLAR CELLS
  • Table 89 : EARLY PLAYERS INVOLVED IN PATENTING AND THE DEVELOPMENT OF QD-ENHANCED SOLAR CELLS
  • Table 9 : QUANTUM DOT PRODUCTION METHODS: LIQUID PHASE
  • Table 90 : MORE RECENT DEVELOPMENTS BY MAJOR PLAYERS INVOLVED IN QD SOLAR CELLS AND COMPETITIVE TECHNOLOGIES, 2005 - 2008
  • Table 91 : LATEST DEVELOPMENTS BY ACADEMIC AND GOVERNMENT ORGANIZATIONS IN QD SOLAR CELLS, 2008 - 2010
  • Table 92 : U.S. PATENT ACTIVITY OF MAJOR COMMERCIAL PLAYERS INVOLVED IN QD-BASED SOLAR CELL APPLICATION, 2008 - 2010
  • Table 93 : DEVELOPMENTS IN QD ENHANCEMENTS USED IN THERMOELECTRIC ENERGY (TE) CONVERSION, 2005 - 2008
  • Table 94 : LATEST DEVELOPMENTS IN QD ENHANCEMENTS USED IN THERMOELECTRIC ENERGY (TE) CONVERSION, 2008 - 2010
  • Table 95 : LEADING U.S. COLLOIDAL QD PRODUCERS, CURRENT PRODUCT PORTFOLIOS, AND COMMERCIAL MARKET APPLICATIONS
  • Table 96 : FOREIGN COLLOIDAL QD PRODUCERS: CURRENT PRODUCT PORTFOLIO AND COMMERCIAL MARKET APPLICATIONS
  • Table 97 : LEADING PROPONENTS OF COMMERCIAL SOLID STATE QD-BASED PRODUCT APPLICATION PLATFORMS
  • Table 98 : MAJOR CHALLENGES FACING COMMERCIAL QD PRODUCERS
  • Table 99 : ANTICIPATED COMMERCIAL MARKET SECTORS FOR QUANTUM DOTS AND PRODUCT OFFERINGS,2010 - 2015

List of Figures

  • Summary Figure : GLOBAL MARKET REVENUE FOR QUANTUM DOTS IN PROMISING MARKET SECTORS, 2009 - 2015
  • Figure 1 : LUMINESCENCE SIZE REGIMES FOR DIFFERENT SEMICONDUCTOR AND METAL QUANTUM DOTS
  • Figure 2 : U.S. QD PATENTS ISSUED, 1986 - JUNE 29, 2010
  • Figure 3 : COMPARISON OF U.S. QD PATENTS ISSUED AND PENDING, 2001 - 2010*
  • Figure 4 : BREAKDOWN (%) FOR THE MAIN INDUSTRY/APPLICATION SECTORS EMERGING FROM QD-PATENTS ISSUED (2008 - JUNE 29, 2010)
  • Figure 5 : RELATIVE TRENDS IN INDUSTRIAL APPLICATION SECTORS FOR ISSUED U.S. QD-PATENTS FOR THE PERIOD, 1998 - 2010
  • Figure 6 : U.S. VERSUS FOREIGN QD PATENTS ISSUED (2008 - JUNE 29, 2010): CLASSIFIED BY APPLICATION SECTOR
  • Figure 7 : U.S. QD PATENTS ISSUED ASSIGNED TO FOREIGN COUNTRIES, FOR THE PERIOD 2008 - JUNE 29, 2010
  • Figure 8 : U.S. QD FILED PATENTS ASSSIGNED TO FOREIGN COUNTRIES, 2008 - JULY 1, 2010
  • Figure 9 : TOTAL WORLWIDE FLASH MEMORY REVENUE GROWTH PROJECTION
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