Quantum Dots: Global Market Growth and Future Commercial Prospects

 Published On: Sep, 2016 |    No of Pages: 406 |  Published By: BCC Research-JT Gabrielsen Consulting LLC Research | Format: PDF
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The global market for quantum dots (QDs) totaled $610.0 million revenue in 2016. The market should total over $3.4 billion by 2021, increasing at a compound annual growth rate (CAGR) of 41.3% from 2016 to 2021.

This report provides:

-An overview of the global markets for quantum dots and their future commercial prospects.
-Analyses of global market trends, with data from 2015, estimates for 2016, and projections of CAGRs through 2021.
-Information especially valuable to individuals and organizations seeking more insight into the current status of QDs, their stand-alone capabilities within the spectrum of nanomaterials, as well as to nanomaterials manufacturers, investors seeking near-term commercialization opportunities, and technologists confronted with nanomaterial device integration issues.
-Insight into how to exploit the use of quantum dots in the biological, biomedical, electronics, energy, optics, optoelectronics, and security applications industries.
-Evaluation of key and relevant patents.
-Profiles of major players in the industry.

INTRODUCTION
Among the many subsets of nanomaterials, quantum dots (QDs) are like no other. At dimensions typically below 10 nanometers, nanocrystalline (NC) semiconductors (SCs), metals and magnetic materials can all exhibit extraordinary quantum confinement phenomena. 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 NC materials at these critical dimensions and thereby systematically tune their quantum confining behavior. As a result, there is currently enormous interest to exploit and capitalize on the unique properties exhibited by QD materials. As a harbinger for future business developments, colloidal quantum dot (CQD) bioconjugates were 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 more recent commercial launchings of SC QDs include: a new generation of flash-memory devices; nanomaterial enhancements for improving the performance of liquid crystal display (LCD) TV and monitor display backlights; flexible organic LEDs, as well as solid-state white-LED lighting; and in rigid and flexible solar panel coatings.

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

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

SCOPE AND FORMAT
Since their parallel discovery in Russia and the U.S. over 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 or chemical vapor deposition equipment. However, in a relatively short time frame, this situation has changed dramatically with the recent commercial availability of CQDs synthesized by less expensive wet-chemical processes. Practically, the availability of QDs in a colloidally dispersed form has helped demystify these somewhat esoteric materials. Most importantly, CQDs now provide access to a much broader industrial 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 in telecommunications and image sensors; 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 in industry, government and academic laboratories. The most active organizations, promising technical applications and developments realizable within the next five years, will all be highlighted.

CONTRIBUTIONS OF THE STUDY AND TARGET AUDIENCE
This report represents a major update of the BCC Research report (NAN027D) Quantum Dots: Technologies and Commercial Prospects, published in April 2014. The most significant revisions in the new edition include:
-An extensive updated patent analysis (2014 through 2015).
-An in-depth assessment of the unfolding commercial markets.
-Progress in the synthesis and commercial scale-up by QD producers.
-Interviews with leading producers.
-Updated company profiles of the producers and end users dictating market development.
-Updated five-year market projection analysis of the emerging QD market.

This is the fifth 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, security and other applications.

METHODOLOGY AND SOURCES OF INFORMATION
Both primary and secondary research methodologies were used in preparing this report. This report is derived primarily 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.

Chapter- 1: Introduction - Complimentary 4 $0
STUDY GOAL AND OBJECTIVES
SCOPE AND FORMAT
CONTRIBUTIONS OF THE STUDY AND TARGET AUDIENCE
METHODOLOGY AND SOURCES OF INFORMATION
ANALYST'S CREDENTIALS
RELATED BCC RESEARCH REPORTS
BCC RESEARCH WEBSITE
DISCLAIMER

Chapter- 2: EXECUTIVE SUMMARY 3 $250
Table Summary : GLOBAL MARKET REVENUE FOR QUANTUM DOTS BY SECTORS, THROUGH 2021
Figure Summary : GLOBAL MARKET REVENUE FOR QD-BASED PRODUCTS BY SECTORS, 2016-2021

Chapter- 3: TECHNOLOGY OVERVIEW 47 $1155
WHAT IS A QUANTUM DOT?
HISTORY OF QUANTUM DOTS
PROPERTIES OF QUANTUM DOTS
QUANTUM DOT INDUSTRY
APPLICATIONS AND STRUCTURAL TYPES OF QUANTUM DOTS
QUANTUM DOT PRODUCTION (SYNTHESIS) AND DEVICE ASSEMBLY
SYNTHESIS OF METAL-CHALCOGENIDE QUANTUM DOTS
SYNTHESIS OF NANOCRYSTALLINE SILICON QUANTUM DOTS
SYNTHESIS OF NANOCRYSTALLINE METAL-BASED QUANTUM DOTS
SYNTHESIS OF CARBON-NANOMATERIAL-BASED QUANTUM DOTS
ASSEMBLY OF QUANTUM DOT STRUCTURES
MARKET SECTORS AND FIVE-YEAR REVENUE GROWTH TRENDS

Chapter- 4: PATENT ANALYSIS 19 $467
RATIONALE AND METHODOLOGY
U.S. PATENT AND TRADEMARK OFFICE (USPTO) SEARCH
IMPACT OF GOVERNMENT-FUNDED RESEARCH ON PATENT ACTIVITY

Chapter- 5: INDUSTRY STRUCTURE AND COMPETITIVE ANALYSIS 62 $1523
COLLOIDAL QUANTUM DOT PRODUCERS/COMPANY PROFILES
COMMERCIAL QD-BASED APPLICATION PLATFORMS
DRIVING FORCES IMPACTING QD INDUSTRY
CHALLENGES AND ISSUES FACING THE QD INDUSTRY
TRADE PRACTICES/REGULATORY ISSUES AND INFORMATION
EVOLUTIONARY STAGE OF INDUSTRY

Chapter- 6: MARKETS BY APPLICATION 174 $4275
INTRODUCTION
BIOTECHNOLOGY AND BIOMEDICINE
BIOMEDICINE
ELECTRONICS
OPTICAL TELECOMMUNICATIONS AND COMPONENTS
SECURITY
SUSTAINABLE ENERGY

Chapter- 7: MARKET ANALYSIS 90 $2211
QD COMMERCIAL PRODUCERS
MARKET PROSPECTS FOR QUANTUM DOTS IN BIOLOGY AND BIOMEDICINE
MARKET PROSPECTS FOR QUANTUM DOTS IN MEMORY APPLICATIONS
MARKET PROSPECTS FOR QUANTUM DOTS IN RIGID AND FLEXIBLE LED WHITE LIGHTING AND DISPLAYS
MARKET PROSPECTS FOR QUANTUM DOTS IN OPTICAL COMMUNICATION AND OTHER OPTICAL COMPONENTS
MARKET PROSPECTS FOR QUANTUM DOTS IN SECURITY APPLICATIONS
MARKET PROSPECTS FOR QUANTUM DOTS IN SOLAR CELL TECHNOLOGY
MARKET PROSPECTS FOR QUANTUM DOTS IN OTHER ENERGY TECHNOLOGIES
MARKET PROSPECTS FOR QUANTUM DOTS IN OTHER PROMISING SECTORS

Chapter- 8: APPENDIX 7 $172
ACRONYMS, ABBREVIATIONS AND UNITS

List of Tables

Summary Table : GLOBAL MARKET REVENUE FOR QUANTUM DOTS BY SECTORS, THROUGH 2021
Table 1 : CHRONOLOGICAL EVOLUTION OF QUANTUM DOTS: FROM RESEARCH CURIOSITY TO COMMERCIAL DEVELOPMENT
Table 2 : COMPARISON OF EMISSION WAVELENGTH OF SC AND METAL NC QUANTUM DOTS AS A FUNCTION OF THEIR SIZE
Table 3 : OTHER PROPERTIES OF COLLOIDAL QUANTUM DOTS
Table 4 : HIERARCHY AND VARIOUS TYPES OF QUANTUM DOTS: BASIC STRUCTURES
Table 5 : HIERARCHY AND VARIOUS TYPES OF QUANTUM DOTS: COMPOSITE STRUCTURES
Table 6 : QD MATERIAL TYPES AND THEIR COMMERCIAL APPLICATIONS
Table 7 : KEY QUANTUM DOT TECHNOLOGIES AND APPLICATIONS
Table 8 : QUANTUM DOT PRODUCTION METHODS: VAPOR PHASE
Table 9 : QUANTUM DOT PRODUCTION METHODS: LIQUID PHASE
Table 10 : QUANTUM DOT PRODUCTION METHODS: SOLID PHASE
Table 11 : VARIOUS METHODS USED FOR SI-NC SYNTHESIS
Table 12 : VARIOUS SYNTHETIC METHODS AND PHOTOPHYSICAL BEHAVIOR OF METAL-NANOCRYSTALS
Table 13 : QUANTUM DOT STRUCTURE ASSEMBLY METHODS
Table 14 : MAIN APPLICATION SECTORS AND POTENTIAL INDUSTRIAL END-USES IDENTIFIED FOR QUANTUM DOT TECHNOLOGY
Table 15 : GLOBAL MARKET REVENUE GENERATED BY QUANTUM DOTS ACCORDING TO MAJOR MARKET SECTORS, THROUGH 2021
Table 16 : LEADING U.S. SMALL BUSINESSES GRANTED MULTIPLE PATENTS FOR QD-RELATED TECHNOLOGY, 2014-DECEMBER 31, 2015
Table 17 : OTHER U.S. SMALL BUSINESSES GRANTED MULTIPLE PATENTS FOR QD-RELATED TECHNOLOGY, 2014-DECEMBER 31, 2015
Table 18 : LEADING U.S. LARGE BUSINESSES GRANTED MULTIPLE PATENTS IN QD-RELATED TECHNOLOGY, 2014-DECEMBER 31, 2015
Table 19 : U.S. ACADEMIC INSTITUTIONS GRANTED MULTIPLE PATENTS IN QD-RELATED TECHNOLOGY, 2014-DECEMBER 31, 2013
Table 20 : U.S. GOVERNMENT AND OTHER INSTITUTIONS GRANTED MULTIPLE PATENTS IN QD-RELATED TECHNOLOGY, 2014-DECEMBER 31, 2015
Table 21 : LEADING SOUTH KOREAN ORGANIZATIONS GRANTED PATENTS IN QD-RELATED TECHNOLOGY, 2014-DECEMBER 31, 2015
Table 22 : LEADING JAPANESE ORGANIZATIONS GRANTED MULTIPLE PATENTS IN QD-RELATED TECHNOLOGY, 2014-DECEMBER 31, 2015
Table 23 : LEADING ORGANIZATIONS IN OTHER ASIAN COUNTRIES GRANTED PATENTS IN QD-RELATED TECHNOLOGY, 2014-DECEMBER 31, 2015
Table 24 : LEADING EUROPEAN ORGANIZATIONS U.S. PATENT ACTIVITY IN QD-RELATED TECHNOLOGY, 2014-DECEMBER 31, 2015
Table 25 : LEADING ORGANIZATIONS IN ROW COUNTRIES WITH PATENT ACTIVITY IN QD-RELATED TECHNOLOGY, 2014-DECEMBER 31, 2015
Table 26 : MAJOR U.S. GOVERNMENT AGENCIES FUNDING QD-BASED RESEARCH
Table 27 : COMMERCIAL PRODUCERS OF COLLOIDAL QUANTUM DOTS
Table 28 : RESEARCH-GRADE PRODUCERS OF COLLOIDAL QUANTUM DOTS
Table 29 : EVIDENT TECHNOLOGIES' QUANTUM DOT GRADES
Table 30 : QD-BASED BUSINESS DEVELOPMENTS AT EVIDENT TECHNOLOGIES, 2005-2011
Table 31 : NANOSYS' QD-FOCUSED BUSINESS DEVELOPMENTS: 2009-2016
Table 32 : NANOSYS' EARLIER NANOMATERIALS-BASED BUSINESS DEVELOPMENTS, 2005-2008
Table 33 : U.S. LARGE CORPORATIONS INTERESTED IN SOLID-STATE SYNTHESIS OF QUANTUM DOTS BASED ON PATENT ANALYSIS, 2008-2010*
Table 34 : NORTH AMERICAN PROPONENTS OF COMMERCIAL QD-BASED PRODUCT APPLICATION PLATFORMS
Table 35 : LEADING ASIAN COMPANIES CURRENTLY DEVELOPING SOLID-STATE-BASED QD-BASED DEVICES
Table 36 : EUROPEAN AND OTHER FOREIGN ORGANIZATIONS CURRENTLY INVOLVED IN COMMERCIALLY DEVELOPING SOLID-STATE QD-BASED DEVICES
Table 37 : PROCESS SYNTHESIS AND DEVICE FABRICATION PARADIGMS FOR COLLOIDAL QUANTUM DOTS
Table 38 : RECENT DEVICE FABRICATION DEVELOPMENTS FOR COLLOIDAL QUANTUM DOTS
Table 39 : MAJOR ISSUES AND CHALLENGES FACING THE COLLOID QD INDUSTRY
Table 40 : RECENT R&D STUDIES IN THE NANOTOXICOLOGY OF QD SYSTEMS
Table 41 : RECENT R&D IN NONTOXIC QD SYSTEMS
Table 42 : RECENT DEVELOPMENT IN NANOMATERIALS SAFETY AND IMPENDING REGULATION
Table 43 : COMMERCIALLY PROMISING SECTORS WITH FIRST-GENERATION OR PROTOTYPE QD-BASED PRODUCTS
Table 44 : ADVANTAGES OF QUANTUM DOTS AS BIOLOGICAL LABELS
Table 45 : U.S. PATENTS ISSUED AND FILED ON QD BIOLABEL SYNTHESIS, 2001-2003
Table 46 : U.S. PATENTS ISSUED AND FILED ON QD BIOTECHNOLOGY-MOLECULAR SPECIES DIAGNOSIS/DETECTION, 2001-2003
Table 47 : U.S. PATENTS ISSUED ON QD BIOTECHNOLOGY APPLICATIONS ON ANALYTICAL/INSTRUMENT METHODS, 2001-2003
Table 48 : U.S. PATENTS ISSUED ON QD-BIOTECHNOLOGY APPLICATIONS ON SENSOR AND MICRO-ARRAY APPLICATIONS, 2001-2003
Table 49 : COMPANIES LEADING QD-BIOTECHNOLOGY/MEDICAL APPLICATIONS BASED ON U.S. PATENT ACTIVITY, 2005-2008
Table 50 : COMPANIES LEADING QD-BIOTECHNOLOGY/MEDICAL APPLICATIONS BASED ON U.S. PATENT ACTIVITY, 2008-OCTOBER 28, 2010
Table 51 : U.S. SMALL BUSINESSES GRANTED MUTIPLE PATENTS FOR QD-RELATED BIO/MEDICAL TECHNOLOGY: 2011-OCTOBER 8, 2013
Table 52 : U.S. LARGE BUSINESSES GRANTED MULTIPLE PATENTS IN QD-RELATED BIO/MEDICAL TECHNOLOGY, 2011-OCTOBER 8, 2013
Table 53 : FOREIGN ORGANIZATIONS LEADING U.S. PATENT ACTIVITY IN QD-RELATED BIO/MEDICAL TECHNOLOGY, 2011-OCTOBER 15, 2013
Table 54 : U.S. SMALL BUSINESSES GRANTED MULTIPLE PATENTS FOR QD-RELATED BIO/MEDICAL TECHNOLOGY: 2014-DECEMBER 31, 2015
Table 55 : U.S. LARGE BUSINESSES GRANTED MULTIPLE PATENTS IN QD-RELATED BIOMEDICAL TECHNOLOGY: 2014-DECEMBER 31, 2015
Table 56 : FOREIGN ORGANIZATIONS LEADING U.S. PATENT ACTIVITY IN QD-RELATED BIO/MEDICAL TECHNOLOGY: 2014-DECEMBER 31, 2015
Table 57 : THE MOST ACTIVE UNIVERSITIES INVOLVED IN QD-BIOTECHNOLOGY APPLICATIONS ACCORDING TO U.S. PATENTS ISSUED: 2005-2007
Table 58 : LEADING UNIVERSITIES AND HOSPITALS INVOLVED IN QD-BIO/MEDICAL APPLICATIONS ACCORDING TO U.S. PATENTS: 2008-OCTOBER 28, 2010
Table 59 : QD MEDICAL APPLICATIONS DERIVED FROM U.S. PATENTS: 2000-2004
Table 60 : QD MEDICAL APPLICATIONS DERIVED FROM U.S. PATENTS: 2005-2007
Table 61 : NOVEL QD-BASED DEVICES AND APPLICATIONS IN ELECTRONICS
Table 62 : U.S. PATENT-BASED DEVELOPMENTS IN QD INTEGRATION USING CONVENTIONAL MICROELECTRONIC TECHNOLOGY, 1999-2004
Table 63 : U.S. PATENT-BASED DEVELOPMENTS IN QD INTEGRATION USING CONVENTIONAL MICROELECTRONIC TECHNOLOGY, 2005-2007
Table 64 : U.S. PATENT-BASED DEVELOPMENTS IN QD INTEGRATION INTO UNCONVENTIONAL NANOELECTRONIC TECHNOLOGY, 1999-2003
Table 65 : U.S. PATENT-BASED DEVELOPMENTS IN QD INTEGRATION USING UNCONVENTIONAL MICROELECTRONIC TECHNOLOGY, 2005-2007
Table 66 : U.S. PATENT-BASED DEVELOPMENTS IN UNCONVENTIONAL QD-BASED MICROELECTRONIC TECHNOLOGY, 2008-2010
Table 67 : U.S. PATENT-BASED DEVELOPMENTS IN UNCONVENTIONAL QD-BASED MICROELECTRONIC TECHNOLOGY, 2014-2015
Table 68 : U.S. PATENT-BASED QD DEVELOPMENTS IN QUANTUM COMPUTERS AND QUANTUM CRYPTOGRAPHY, 1999-2004
Table 69 : U.S. PATENT-BASED QD DEVELOPMENTS IN QUANTUM COMPUTERS AND QUANTUM CRYPTOGRAPHY, 2005-2007
Table 70 : U.S. PATENT-BASED QD DEVELOPMENTS IN QUANTUM COMPUTERS AND QUANTUM CRYPTOGRAPHY, 2008-2010
Table 71 : U.S. PATENT-BASED QD DEVELOPMENTS IN QUANTUM COMPUTERS AND QUANTUM CRYPTOGRAPHY, 2011-2013
Table 72 : U.S. PATENT-BASED QD DEVELOPMENTS IN MEMORY DEVICES, 1999-2004
Table 73 : U.S. PATENT-BASED QD DEVELOPMENTS IN MEMORY DEVICES, 2005-2007
Table 74 : U.S. PATENT-BASED QD DEVELOPMENTS IN MEMORY DEVICES, 2008-2010
Table 75 : U.S. PATENT-BASED QD DEVELOPMENTS IN MEMORY DEVICES, 2011-2013
Table 76 : U.S. PATENT-BASED QD DEVELOPMENTS IN MEMORY DEVICES, 2014-2015
Table 77 : U.S. PATENT-BASED QD DEVELOPMENTS IN DISPLAY TECHNOLOGIES, 2005-2007
Table 78 : U.S. PATENT-BASED QD DEVELOPMENTS IN DISPLAY TECHNOLOGIES, 2008-2010
Table 79 : U.S. PATENT-BASED QD DEVELOPMENTS IN DISPLAY TECHNOLOGIES, 2011-2013
Table 80 : LATEST U.S. PATENT-BASED QD DEVELOPMENTS IN DISPLAY TECHNOLOGIES, 2014-2015
Table 81 : BENEFITS OF QD LIGHT-EMITTING DIODES OVER OTHER DISPLAY TECHNOLOGIES
Table 82 : LATEST DEVELOPMENTS IN QD VISION'S DISPLAY AND SOLID-STATE LIGHTING TECHNOLOGIES
Table 83 : PIONEERING FLEXIBLE-DISPLAY MARKET PLAYERS
Table 84 : U.S. PATENT-BASED QD DEVELOPMENTS IN LASERS AND LASER DIODES AND RELATED DEVICES AMONG U.S. ORGANIZATIONS, 2005-2007
Table 85 : U.S. PATENT-BASED QD DEVELOPMENTS IN LASER DIODES AND RELATED DEVICES AMONG FOREIGN ORGANIZATIONS, 2005-2007
Table 86 : ORGANIZATIONS LEADING U.S. PATENT-BASED QD DEVELOPMENTS IN LASER DIODES AND RELATED DEVICES, 2008-2010
Table 87 : ORGANIZATIONS LEADING U.S. PATENT-BASED QD DEVELOPMENTS IN LASER DIODES AND RELATED DEVICES, 2011-2013
Table 88 : ORGANIZATIONS LEADING U.S. PATENT-BASED QD DEVELOPMENTS IN LASER DIODES AND RELATED DEVICES, 2014-2015
Table 89 : ADVANTAGES OF QD DIODE LASERS
Table 90 : ROADMAP RECOMMENDATIONS FOR SSL-LED TECHNOLOGY/ LAMP TARGETS
Table 91 : IMPORTANT PLAYERS IN THE GROWING WLED SSL INDUSTRY
Table 92 : U.S. PATENT-BASED QD DEVELOPMENTS IN LIGHT-EMITTING DIODES AND RELATED DEVICES AMONG U.S. ORGANIZATIONS, 2005-2007
Table 93 : U.S. PATENT-BASED QD DEVELOPMENTS IN LIGHT-EMITTING DIODES AND RELATED DEVICES AMONG FOREIGN ORGANIZATIONS, 2005-2007
Table 94 : ORGANIZATIONS LEADING U.S. PATENT-BASED QD DEVELOPMENTS IN LIGHT-EMITTING DIODES AND LIGHTING APPLICATIONS, 2008-2010
Table 95 : ORGANIZATIONS LEADING U.S. PATENT-BASED QD DEVELOPMENTS IN LIGHT-EMITTING DIODES AND LIGHTING APPLICATIONS, 2011-2013
Table 96 : ORGANIZATIONS LEADING U.S. PATENT-BASED QD DEVELOPMENTS IN LIGHT-EMITTING DIODES AND LIGHTING APPLICATIONS, 2014-2015
Table 97 : PROPERTY COMPARISON OF COLLOIDAL QUANTUM DOTS AND CONVENTIONAL LED PHOSPHORS
Table 98 : CQD-BASED SOLID-STATE WHITE LIGHTING: ENABLING FEATURES AND FUTURE TECHNICAL CHALLENGES
Table 99 : U.S. PATENT-BASED QD DEVELOPMENTS IN OPTICAL COMPONENTS AND RELATED DEVICES, 1999-2004
Table 100 : RECENT U.S. PATENT-BASED QD DEVELOPMENTS IN OPTICAL COMPONENTS, 2005-2008
Table 101 : LEADING ORGANIZATIONS WITH U.S. PATENT-BASED QD DEVELOPMENTS IN OPTICAL COMPONENTS, 2008-2010
Table 102 : LEADING ORGANIZATIONS WITH U.S. PATENT-BASED QD DEVELOPMENTS IN OPTICAL COMPONENTS, 2011-2013
Table 103 : LATEST DEVELOPMENTS BY ACADEMIC, GOVERNMENT AND COMPANIES IN QD OPTICAL APPLICATIONS, 2011-2013
Table 104 : LEADING ORGANIZATIONS WITH U.S. PATENT-BASED QD OPTICAL DEVELOPMENTS, 2014-2015
Table 105 : KEY ORGANIZATIONS INVOLVED IN SECURITY APPLICATIONS OF QUANTUM DOTS OR COMPETITIVE MARKING MATERIALS
Table 106 : QD SECURITY APPLICATIONS PATENTS, 2005-2008
Table 107 : QD SECURITY APPLICATIONS PATENTS, 2008-2010
Table 108 : QD SECURITY APPLICATIONS PATENTS, 2014-2015
Table 109 : RECENT INTERNATIONAL CONFERENCES FOCUSING ON NEW SECURITY DEVELOPMENTS
Table 110 : ADVANTAGES OF FLEXIBLE POLYMER-BASED OVER CONVENTIONAL RIGID SOLAR CELL DESIGNS
Table 111 : SOME ADVANTAGES OF COLLOIDAL QUANTUM DOTS OVER ORGANIC DYES USED IN PHOTOVOLTAIC SOLAR CELLS
Table 112 : EARLY PLAYERS INVOLVED IN PATENTING AND DEVELOPMENT OF QD-ENHANCED SOLAR CELLS
Table 113 : MORE RECENT DEVELOPMENTS BY MAJOR PLAYERS INVOLVED IN QD SOLAR CELLS AND COMPETITIVE TECHNOLOGIES, 2005-2008
Table 114 : LATEST DEVELOPMENTS BY ACADEMIC AND GOVERNMENT ORGANIZATIONS IN QD SOLAR CELLS, 2008-2010
Table 115 : U.S. PATENT ACTIVITY BY MAJOR COMMERCIAL PLAYERS INVOLVED IN QD-BASED SOLAR CELL APPLICATION, 2008-2010
Table 116 : LATEST DEVELOPMENTS BY ACADEMIC AND GOVERNMENT ORGANIZATIONS IN QD SOLAR CELLS, 2011-2013
Table 117 : U.S. PATENT ACTIVITY BY MAJOR COMMERCIAL PLAYERS INVOLVED IN QD-BASED SOLAR CELL APPLICATIONS, 2011-2013
Table 118 : LATEST DEVELOPMENTS BY ACADEMIC AND GOVERNMENT ORGANIZATIONS IN QD SOLAR CELLS, 2014-2016
Table 119 : U.S. PATENT ACTIVITY BY MAJOR COMMERCIAL PLAYERS INVOLVED IN QD-BASED SOLAR CELL APPLICATIONS, 2014-2015
Table 120 : DEVELOPMENTS IN QD ENHANCEMENTS USED IN THERMOELECTRIC ENERGY CONVERSION, 2005-2008
Table 121 : PATENT DEVELOPMENTS IN QD ENHANCEMENTS USED IN THERMOELECTRIC ENERGY CONVERSION, 2008-2013
Table 122 : PATENT DEVELOPMENTS IN QD ENHANCEMENTS USED IN THERMOELECTRIC ENERGY (TE) CONVERSION, 2014-2015
Table 123 : LEADING U.S. COLLOIDAL QUANTUM DOT PRODUCERS, CURRENT PRODUCT PORTFOLIOS AND COMMERCIAL MARKET APPLICATIONS
Table 124 : FOREIGN CQD PRODUCERS: CURRENT PRODUCT PORTFOLIO AND COMMERCIAL MARKET APPLICATIONS
Table 125 : LEADING PROPONENTS OF COMMERCIAL SOLID-STATE QD-BASED PRODUCT APPLICATION PLATFORMS
Table 126 : MAJOR CHALLENGES FACING COMMERCIAL QD PRODUCERS
Table 127 : ANTICIPATED COMMERCIAL MARKET SECTORS FOR QUANTUM DOTS AND PRODUCT OFFERINGS, 2015-2021
Table 128 : PREDICTED REVENUE GROWTH IN BIOCONJUGATE QUANTUM DOTS AND DIAGNOSTIC BIOMEDICAL SENSORS, THROUGH 2021
Table 129 : QD AND OTHER FUTURE NANOMATERIALS-BASED MEMORY ARCHITECTURES
Table 130 : PROJECTED MARKET REVENUES GENERATED BY FREESCALE'S QD-BASED MEMORY PRODUCTS, THROUGH 2021
Table 131 : MAJOR ISSUES CONFRONTING THE IMPENDING USE OF QUANTUM DOTS IN SSL WLED TECHNOLOGY
Table 132 : PROJECTED RIGID AND FLEXIBLE QD LED LIGHTING REVENUES, THROUGH 2021
Table 133 : MAJOR PERFORMANCE ISSUES CONFRONTING OLED DISPLAY TECHNOLOGY AND POTENTIAL ENHANCEMENTS PROVIDED BY QUANTUM DOTS
Table 134 : CURRENT QD PRODUCERS TARGETING THE BACKLIGHT LCD DISPLAY MARKET, 2016
Table 135 : PROJECTED RIGID- AND FLEXIBLE-DISPLAY REVENUES GENERATED BY QD-BASED PRODUCTS, THROUGH 2021
Table 136 : PROJECTED REVENUES FOR QD-BASED OPTICAL TELECOM AND PORTABLE COMMUNICATION DEVICES, THROUGH 2021
Table 137 : CLASSIFICATION OF COVERT QD SECURITY APPLICATIONS BY MARKET SECTOR
Table 138 : PROJECTED MARKET REVENUES GENERATED BY QD-BASED SECURITY PRODUCTS, THROUGH 2021
Table 139 : MAJOR ISSUES CONFRONTING THE IMPENDING USE OF COLLOIDAL QUANTUM DOTS IN SOLAR CELL TECHNOLOGY
Table 140 : NOTABLE COMMERCIAL DEVELOPMENTS IN QD-ENHANCED SOLAR PHOTOVOLTAICS, 2014-2016
Table 141 : SUMMARY OF SIGNIFICANT DEVELOPMENTS BY ACADEMIC AND GOVERNMENT ORGANIZATIONS IN QD SOLAR CELLS, 2014-2016
Table 142 : PROJECTED MARKET REVENUES GENERATED BY QD-ENHANCED SOLAR CELL PRODUCTS, THROUGH 2021

List of Figures

Summary Figure : GLOBAL MARKET REVENUE FOR QD-BASED PRODUCTS BY SECTORS, 2016-2021
Figure 1 : LUMINESCENCE SIZE REGIMES FOR DIFFERENT SEMICONDUCTOR AND METAL QUANTUM DOTS1
Figure 2 : GLOBAL REVENUES GENERATED BY QUANTUM DOTS ACCORDING TO MAJOR MARKET SECTORS, 2016 AND 2021
Figure 3 : U.S. QD PATENTS ISSUED, 1986-DECEMBER 29, 2015
Figure 4 : COMPARISON OF U.S. QD PATENTS ISSUED AND PENDING, 2001-2015
Figure 5 : U.S. QD PATENTS ISSUED ASSIGNED TO FOREIGN COUNTRIES, 2014-DECEMBER 29, 2015
Figure 6 : U.S. QD FILED PATENTS ASSIGNED TO FOREIGN COUNTRIES, 2014-DECEMBER 29, 2015


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