【レポートの概要(一部)】
Executive Summary
E.1 Current Status of Radiation Detection Materials: Industry and Markets
E1.1 The 3He Crisis and the Need to Find New Neutron Detection Materials
E.1.2 Scintillation Radiation Detection Materials and Applications
E.1.3 Semiconducting Radiation Detection Materials and Applications
E.2 Radiation Detection Materials Opportunity Profile
E.2.1 Opportunities for 3He Substitutes for Neutron Detection Applications
E.2.2 Opportunities for Low-Cost Radiation Detection Materials
E.2.3 Opportunities for High-Performance Radiation Detection Materials
E.2.4 Longer-term Opportunities for Radiation Detection Materials
E.3 Key Firms to Watch
E.4 Summary of Eight-Year Forecasts for Radiation Detection Materials
Chapter One: Introduction
1.1 Background to This Report
1.1.1 The 3He Crisis and the Need to Find New Neutron Detection Materials
1.1.2 Scintillations and Semiconductors
1.1.3 Medical Imaging Markets
1.1.4 9/11 and After: Homeland Security Markets for Radiation Detection Materials
1.2 Objective and Scope of this Report
1.3 Methodology of this Report
1.4 Plan of this Report
Chapter Two: Current and Future Factors Shaping the Radiation Detection Materials Market
2.1 Application Trends Impacting Demand for Novel Radiation Detection Materials
2.1.1 Medical
2.1.2 Domestic Security
2.1.3 Military
2.1.4 Nuclear Power
2.1.5 Geophysical Applications
2.1.6 Industural and other Applications
2.2 Industry Structure Analysis from a Materials Perspective
2.2.1 Current and Future Materials Requirements for Device Makers
2.2.2 Market Developments and Trends at the Crystal Growers
2.2.3 Opportunities for Suppliers of Raw Chemicals in the Radiation Detection Materials Space
2.3 Analysis of Key R&D Trends in Radiation Detection Materials
2.4 Key Points Made in this Chapter
Chapter Three: Radiation Detection: Standard and Emerging Materials
3.1 The Future of Sodium Iodide in Radiation Detection
3.2 Market Opportunities for Newer Scintillation Radiation Detection Materials
3.2.1 Lanthanum Bromide-Based Materials
3.2.2 Cerium Bromide (CeBr3)
3.2.3 CLYC (Cs2LiYCl6) based materials
3.2.4 Cesium Iodide-Based Materials
3.2.5 Strontium Iodide-Based Materials
3.2.6 Fluoride Salt Scintillation Materials
3.2.7 Oxide-Based Scintillation Materials
3.2.8 Silicate-Based Scintillation Materials
3.2.9 Yttrium-Based Scintillation Materials
3.2.10 Nanocrystalline Scintillation Materials
3.2.11 Plastic and Organic Polymer-Based Scintillation Materials
3.3 Market Opportunities for Semiconductor Radiation Detector Materials
3.3.1 Ge- and Si-Based Materials
3.3.2 Telluride, Arsenide, and Phosphide based materials.
3.3.3 Aluminum Antimonide, Mercury Iodide and Other High Temperature Radiation Sensitive Materials
3.4 Market Opportunities for Materials to Replace 3He for Neutron Detection.
3.4.1 6Li based materials
3.4.2 10B based materials
3.4.3 Other Potential 3He Replacement Materials
3.5 Key Points made in this Chapter
Chapter Four: Eight-Year Forecasts for Radiation Detector Materials
4.1 Forecasting Methodology
4.1.1 Data Sources
4.1.2 Roadmap for Radiation Detector Materials Growth
4.2 Eight-Year Forecast for Radiation Detector Materials
4.2.1 Forecast by Radiation Detection Application
List of Exhibits
Exhibit E-1: Worldwide Radiation Detection Revenue ($ Millions)
Exhibit E-2: Worldwide Radiation Detector Volume
Exhibit E-3: Worldwide Radiation Detector Materials Revenue by Application ($ Millions)
Exhibit 4-1: Worldwide Radiation Detection Revenue ($ Millions)
Exhibit 4-2: Worldwide Radiation Detector Volume
Exhibit 4-3: Worldwide Scintillation Detector Revenue by Materials Type ($Millions)
Exhibit 4-4: Worldwide Scintillation Detector Volumes by Materials Type
Exhibit 4-5: Worldwide Semiconductor Detector Materials Revenue by Materials Type ($Millions)
Exhibit 4-6: Worldwide Semiconductor Detector Material Volume by Materials Type
Exhibit 4-7: Cost in $ per cm3 or cm2 of Scintillation Detection Materials
Exhibit 4-8: Cost of Various Semiconducting Detector Materials ($ per cm2 or cm3)
Exhibit 4-9: Worldwide Radiation Detector Revenue by Application ($ Millions)
Exhibit 4-10: Worldwide Radiation Detector Volume by Application
Exhibit 4-11: NaI Revenue by Application ($ Millions)
Exhibit 4-12: NaI Volume (Millions of cm3) by Application
Exhibit 4-13: CsI Crystalline Revenue by Application ($ Millions)
Exhibit 4-14: CsI Crystalline Volume (Millions of cm3) by Application
Exhibit 4-15: CsI Thin-Film Revenue by Application ($Millions)
Exhibit 4-16: CsI Thin-Film Volume (Millions of cm2) by Application
Exhibit 4-17: Lanthanum-Based (LaBr3/LaCl3) Revenue by Application ($ Millions)
Exhibit 4-18: Lanthanum-Based (LaBr3/LaCl3) Volume (Millions of cm3) by Application
Exhibit 4-19: Other Crystalline Simple Salt Detection Material Revenue by Application ($ Millions)
Exhibit 4-20: Other Crystalline Simple Salt Detection Material Volume (Millions of cm3) by Application)
Exhibit 4-21: Oxide-Based Detection Materials (BGO/PbWO4/etc.) Revenue by Application ($ Millions)
Exhibit 4-22: Oxide-Based Detection Material (BGO/PbWO4/etc.) Volume (Millions of cm3) by Application
Exhibit 4-23: Silicate-Based Detection Materials (LSO/BSO/etc.) Revenue by Application ($ Millions)
Exhibit 4-24: Silicate-Based Detection Materials (LSO/BSO/etc.) Volume (Millions of cm3) by Application
Exhibit 4-25: Yttrium-Based Scintillation Detection Material Revenue by Application ($ Millions)
Exhibit 4-26: Yttrium-Based Scintillation Detection Material Volume (Millions of cm3) by Application
Exhibit 4-27: Plastic/Polymer-Based Scintillation Detection Material Revenue by Application ($ Millions)
Exhibit 4-28: Plastic/Polymer-Based Scintillation Detection Material Volume (Millions of cm2) by Application
Exhibit 4-29: CLYC-Based Scintillation Detection Material Revenue by Application ($ Millions)
Exhibit 4-30: CLYC-Based Scintillation Detection Material Volume (Millions of cm3) by Application
Exhibit 4-31: Nanocrystalline/Nanowire/etc. Detection Material Revenue by Application ($ Millions)
Exhibit 4-32: Nanocrystalline/Nanowire/etc. Detection Material Volume (Thousands of cm2) by Application
Exhibit 4-33: HPGe and Si-Based Detection Material Revenue by Application ($ Millions)
Exhibit 4-34: HPGe and Si-Based Detection Material Volume (Thousands of cm2) by Application
Exhibit 4-35: CdSe/CdTe/CdZnTe Revenue by Application ($ Millions)
Exhibit 4-36: CdSe/CdTe/CdZnTe Volume (Thousands of cm2) by Application
Exhibit 4-37: Gallium Arsenide Revenue by Application ($ Millions)
Exhibit 4-38: Gallium Arsenide Volume (Thousands of cm2) by Application
Exhibit 4-39: Other Room Temperature Semiconducting Detection Materials Revenue ($ Millions)
Exhibit 4-40: Other Room Temperature Semiconducting Detection Materials Volume (Thousands of cm2) by Application
Exhibit 4-41: Worldwide Radiation Detector Revenue by Region ($ Millions)
Exhibit 4-42: Worldwide Radiation Detector Volumes by Region
Exhibit 4-43: Revenue for 3he Substitute Materials
Exhibit 4-44: 3He Substitute Material Volumes (boron tube area (cm2) and 6Li volume (thousands of cm3)
Exhibit 4-45: Revenue for Boron Based 3He Substitute Materials by Application
Exhibit 4-46: 3He Substitute Material Volumes (boron tube area (cm2) and Li6 Volume (thousands of cm3)) by Application
【レポート販売概要】
■ タイトル:放射線検知材料市場2013■ 英文:Radiation Detection Materials Markets-2013
■ 発行日:2013年4月16日
■ 調査会社:Nanomarkets
■ 商品コード:Nano-631
■ 調査対象地域:グローバル
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