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市場調查報告書
奈米技術調查檢討(2011年)
2011 Nanotechnology Research Review
| 出版商 |
BCC Research |
| 出版日期 |
2012年01月 |
商品編碼 |
228065 |
| 內容資訊 |
英文 217 Pages |
| 價格 |
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奈米技術調查檢討(2011年) 是由出版商BCC Research在2012年01月所出版的。
這份英文市場調查報告書包含217 Pages 價格從美金850起跳。
2010年,全球水處理用奈米結構產品的市場達到約14億美元的市場規模。預計今後以9.7%的年平均成長率成長,2015年將達到22億美元的市場規模。另一方面,2010年的量子點的市場為6,700萬美元,2011年維1億300萬美元,2015年預計將達到10倍的6億6,600萬美元(年複合成長率59.3%)的大幅度成長。全球奈米合成消費量2011年為13萬8,389公噸(9億2,000萬美元),2016年預計將達到約33萬3,043公噸(24億美元)。
本報告提供2011年發行的奈米技術相關的主要報告彙整,各種各樣的市場資料,分析,指導決策支援,為您概述為以下內容。
第1章 奈米技術調查檢討
第2章 水處理的奈米技術
- 簡介
- 摘要整理
- 概要
- 飲用水
- 工業廢水
- 工業用水
- 地下水去污
- 奈米技術
- 奈米技術和水
- 奈米技術的水處理的潛在的風險
第3章 奈米生化科技:全球市場與應用
- 簡介
- 摘要整理
- 概要
- 生物奈米材料
- 奈米粒子
- 量子點
- 微脂體
- 樹狀聚合物
- 奈米孔洞
- 奈米晶體
- 聚合物結構
- 積體奈米結構
- 奈米生化科技市場潛在性
- 奈米生化科技的成長推進因素
- 奈米生化科技材料的平台
- 奈米生化科技產品的生命週期情形
- 奈米生化科技產業
第4章 量子點:技術和全球市場
- 簡介
- 摘要整理
- 概要
- 量子點產業
- 量子點的用途與結構類型
- 基礎結構
- 專利分析
- 量子點的製造(合成)設備與集合
- 金屬硫族化合物量子點的合成
- 奈米矽晶型量子的合成
- 奈米晶體金屬·量子點的合成
- 碳精棒量子點的合成
- 量子點結構的集合
第5章 高級陶瓷粉末及奈米陶瓷粉末的市場
- 簡介
- 摘要整理
- 高級陶瓷粉末:概要
- 粉末類型
- 粉狀體合成技術
- 材料的用途與特性
- 最終消費者產業
- 美國的尖端·奈米規模陶瓷粉狀體市場:總市場
第6章 全球奈米合成·奈米粒子·奈米黏土·奈米管市場
- 簡介
- 摘要整理
- 奈米合成概要
- 奈米合成和傳統的複合材料費的一般的特性
- 奈米合成的類型·特性·用途
圖表
Abstract
REPORT HIGHLIGHTS
- The global market for nanostructured products used in water treatment was
worth an estimated $1.4 billion in 2010 and will grow at a compound annual
growth rate (CAGR) of 9.7% during the next 5 years to reach a value of $2.2
billion in 2015.
- The global market for quantum dots (QDs) was worth an estimated $67
million in 2010 and $103 million in 2011. This market is projected to grow at
a CAGR of 59.3%, reaching $666 million by 2015, a tenfold increase.
- Global consumption of nanocomposites was an estimated 138,389 metric tons
with a value of $920 million in 2011. By 2016, the market should amount to
333,043 metric tons and $2.4 billion, a five year CAGR of 19.2% in unit terms
and 20.9% in value terms.
INTRODUCTION
In late 2011, Michael Crichton's possible last novel was published,
implicating nanotechnology as both powerful and dangerous.
At the same moment, risk assessment and management regulations - along with
reporting accountability and data standards - are being framed by both the
National Nanotechnology Initiative (NNI) and also the Nanotechnology
Environmental and Health Implications working group (NEHI).
The further nanotech extends its reach into the manufacturing realm, the
louder and more persistent questions of toxicity and long-term effects will
become.
All the while huge progress is being made in terms of manufacturing
reproducibility. The genie is out of the bottle and setting up shop in box
stores and hospital clinics alike.
This Nanotechnology Research Review provides a sampling of the type of
quantitative market information, analysis, and guidance that has been aiding
business decision making since BCC was founded in 1971.
Table of Contents
2011 Nanotechnology Research Review
Chapter - 1: 2011 NANOTECHNOLOGY RESEARCH REVIEW - Complimentary
Chapter - 2: NANOTECHNOLOGY IN WATER TREATMENT (NAN051A)
- INTRODUCTION
- EXECUTIVE SUMMARY
- OVERVIEW
- POTABLE WATER
- INDUSTRIAL WASTEWATER
- PROCESS WATER
- GROUNDWATER REMEDIATION
- NANOTECHNOLOGY
- NANOTECH AND WATER
- PERCEIVED ADVANTAGES OF NANOTECH WATER TREATMENT
- POTENTIAL RISKS OF NANOTECH WATER TREATMENT
Chapter - 3: NANOBIOTECHNOLOGY: APPLICATIONS AND GLOBAL MARKETS (NAN050A)
- INTRODUCTION
- SUMMARY
- OVERVIEW
- BIO-NANOMATERIALS
- NANOPARTICLES
- QUANTUM DOTS
- LIPOSOMES
- DENDRIMERS
- NANOPORES
- NANOCRYSTALS
- POLYMER STRUCTURES
- INTEGRATED NANOSTRUCTURES
- MARKET POTENTIAL OF NANOBIOTECHNOLOGY
- NANOBIOTECHNOLOGY GROWTH DRIVING FORCES
- NANOBIOTECHNOLOGY MATERIALS PLATFORMS
- NANOBIOTECHNOLOGY PRODUCT LIFE CYCLE STATUS
- NANOBIOTECHNOLOGY INDUSTRY
- Table 23: NANOBIOTECHNOLOGY INDUSTRY
Chapter - 4: QUANTUM DOTS: TECHNOLOGIES AND GLOBAL MARKETS (NAN027C)
- INTRODUCTION
- EXECUTIVE SUMMARY
- TECHNOLOGY OVERVIEW
- 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 37: QUANTUM DOT STRUCTURE ASSEMBLY METHODS
Chapter - 5: ADVANCED CERAMICS AND NANOCERAMIC POWDERS (NAN015F)
- INTRODUCTION
- EXECUTIVE SUMMARY
- OVERVIEW OF ADVANCED CERAMIC POWDERS
- POWDER TYPES
- POWDER SYNTHESIS TECHNIQUES
- MATERIAL APPLICATIONS AND PROPERTIES
- END-USER INDUSTRIES
- OVERALL U.S. MARKET FOR ADVANCED AND NANOSCALE CERAMIC POWDERS
- Table 58: U.S. MARKETS FOR ADVANCED AND NANOSCALE CERAMIC POWDERS,
THROUGH 2016
Chapter - 6: GLOBAL MARKETS FOR NANOCOMPOSITES, NANOPARTICLES, NANOCLAYS, AND NANOTUBES (NAN021E)
- INTRODUCTION
- EXECUTIVE SUMMARY
- NANOCOMPOSITES OVERVIEW
- GENERAL PROPERTIES OF NANOCOMPOSITES VERSUS CONVENTIONAL COMPOSITES
- TYPES OF NANOCOMPOSITES, THEIR PROPERTIES AND APPLICATIONS
List of Tables
- Table 1: GLOBAL MARKET FOR NANOTECHNOLOGY PRODUCTS USED IN WATER
TREATMENT, THROUGH 2015
- Table 2: WATERBORNE PATHOGENS
- Table 3: POTENTIAL WASTEWATER COMPONENTS BY INDUSTRY
- Table 4: GLOBAL HOTSPOTS FOR WATER POLLUTION
- Table 5: COST FOR REMEDIATING U.S. SITES BY PROGRAM AND NUMBER OF LOCATIONS
- Table 6: POTENTIAL APPLICATIONS OF NANOTECHNOLOGY IN WATER TREATMENT
- Table 7: GLOBAL VALUE OF NANOBIOTECHNOLOGY MARKET BY END USER, THROUGH 2015
- Table 8: SCOPE OF THIS REPORT
- Table 9: FEATURES OF NANOTECHNOLOGIES
- Table 10: HISTORICAL TIMELINE OF NANOTECHNOLOGY, 1931 - 2007
- Table 11: VALUE CHAIN FOR NANOTECHNOLOGIES
- Table 12: NANOBIOTECHNOLOGY MATERIALS
- Table 13: NANOMATERIALS APPLICATIONS STATUS
- Table 14: NANOMATERIALS LIFE CYCLE STATUS
- Table 15: NANOPARTICLES IN IMAGING APPLICATIONS
- Table 16: COMPARISON OF QUANTUM DOTS, FLUORESCENT DYES AND FLUORESCENT
PROTEINS
- Table 17: LIPOSOME TYPES
- Table 18: ADVANTAGES OF NANOCRYSTAL DRUG TECHNOLOGY
- Table 19: GLOBAL VALUE OF NANOBIOTECHNOLOGY MARKET BY APPLICATION, THROUGH
2015
- Table 20: NANOBIOTECHNOLOGY MARKET GROWTH DRIVING FORCES
- Table 21: GLOBAL VALUE OF NANOBIOTECHNOLOGY MARKET BY PLATFORM, THROUGH
2015
- Table 22: LIFE CYCLE STATUS OF NANOMATERIALS
- Table 23: NANOBIOTECHNOLOGY INDUSTRY
- Table 24: GLOBAL MARKET REVENUE FOR QUANTUM DOTS IN PROMISING MARKET
SECTORS, THROUGH 2015
- Table 25: CHRONOLOGICAL EVOLUTION OF QDS: FROM RESEARCH CURIOSITY THROUGH
COMMERCIAL DEVELOPMENT, 1960s - 2010
- Table 26: COMPARISON OF EMISSION WAVELENGTH OF SC AND METAL NC QUANTUM
DOTS AS A FUNCTION OF THEIR SIZE
- Table 27: OTHER PROPERTIES OF COLLOIDAL QUANTUM DOTS
- Table 28: HIERARCHY AND VARIOUS TYPES OF QDS: BASIC STRUCTURES
- Table 29: HIERARCHY AND VARIOUS TYPES OF QDS: COMPOSITE STRUCTURES
- Table 30: QD MATERIAL TYPES AND THEIR COMMERCIAL APPLICATIONS
- Table 31: KEY QUANTUM DOT TECHNOLOGIES AND APPLICATIONS
- Table 32: QUANTUM DOT PRODUCTION METHODS: VAPOR PHASE
- Table 33: QUANTUM DOT PRODUCTION METHODS: LIQUID PHASE
- Table 34: QUANTUM DOT PRODUCTION METHODS: SOLID PHASE
- Table 35: VARIOUS METHODS USED FOR SI-NC SYNTHESIS
- Table 36: VARIOUS SYNTHETIC METHODS AND PHOTOPHYSICAL BEHAVIOR OF METAL-NCS
- Table 37: QUANTUM DOT STRUCTURE ASSEMBLY METHODS
- Table 38: U.S. CONSUMPTION OF ADVANCED AND NANOSCALE CERAMIC POWDERS,
THROUGH 2016
- Table 39: COMMONLY USED ADVANCED CERAMIC MATERIAL FAMILIES
- Table 40: PROCESS STEPS TO PRODUCE s-SIC VIA CARBOTHERMAL REDUCTION
- Table 41: PLASMA SYNTHESIS OF CERAMIC POWDERS
- Table 42: POWDER SYNTHESIS COMPARISON
- Table 43: POWDER PROCESSES FOR VARIOUS CERAMIC MATERIALS
- Table 44: CURRENT AND POTENTIAL USES FOR ADVANCED CERAMICS
- Table 45: CURRENT AND POTENTIAL APPLICATIONS OF ADVANCED STRUCTURAL
CERAMICS
- Table 46: PROPERTIES OF COMMERCIAL ALUMINA SPECIFICATIONS
- Table 47: PROPERTIES OF NORZIDE YZ-110 TETRAGONAL ZIRCONIA POLYCRYSTALS
(TZP)
- Table 48: FRACTURE TOUGHNESS AND CRITICAL FLAW SIZES OF MONOLITHIC AND
COMPOSITE CERAMICS MATERIALSa
- Table 49: PROPERTIES OF MONOLITHIC CERAMICS AND CERAMIC COMPOSITES
- Table 50: THERMAL CONDUCTIVITY OF VARIOUS ZIRCONIAS
- Table 51: HIGH-PERFORMANCE CERAMIC COATING MATERIALS AND GENERAL
APPLICATIONS
- Table 52: REPRESENTATIVE FLAME AND PLASMA SPRAYED MATERIALS, MELTING OR
SOFTENING TEMPERATURE, AND USES
- Table 53: CERAMIC INSULATORS AND THEIR PROPERTIES
- Table 54: CERAMIC SUBSTRATE PROPERTIES
- Table 55: CANDIDATE CERAMIC SUBSTRATE MATERIALS FOR ELECTRONICS
- Table 56: DIELECTRIC MATERIAL FOR MULTILAYER CERAMIC CAPACITOR
- Table 57: U.S. MARKETS FOR ADVANCED CERAMIC COMPONENTS, THROUGH 2016
- Table 58: U.S. MARKETS FOR ADVANCED AND NANOSCALE CERAMIC POWDERS, THROUGH
2016
- Table 59: GLOBAL CONSUMPTION OF NANOCOMPOSITES, THROUGH 2016
- Table 60: PROPERTIES AND MAIN APPLICATIONS OF PRINCIPAL TYPES OF
COMMERCIAL CLAY NANOCOMPOSITES
- Table 61: OTHER CLAY NANOCOMPOSITES
- Table 62: PRINCIPAL APPLICATIONS OF CLAY CONTAINING COMPOSITES
- Table 63: CLAY NANOCOMPOSITE SUPPLIERS
- Table 64: PROPERTIES AND MAIN APPLICATIONS FOR PRINCIPAL TYPES OF
CERAMIC-CONTAINING NANOCOMPOSITES
- Table 65: PRINCIPAL APPLICATIONS OF CERAMIC CONTAINING COMPOSITES
- Table 66: CERAMIC NANOCOMPOSITE SUPPLIERS
- Table 67: PROPERTIES OF CARBON NANOTUBE COMPOSITE
- Table 68: PRINCIPAL APPLICATIONS OF NANOTUBE COMPOSITES
- Table 69: CARBON NANOTUBE COMPOSITE SUPPLIERS
- Table 70: CONSUMPTION OF NANOCOMPOSITES BY COUNTRY/REGION, THROUGH 2016
List of Figures
- Figure 1: GLOBAL MARKET FOR NANOTECHNOLOGY PRODUCTS USED IN WATER
TREATMENT, 2000 - 2015
- Figure 2: GLOBAL VALUE OF NANOBIOTECHNOLOGY MARKET BY END USER, 2009 - 2015
- Figure 3: QUANTUM DOT SPECTRA
- Figure 4: FLUORESCENT DYE SPECTRA
- Figure 5: GLOBAL MARKET REVENUE FOR QUANTUM DOTS IN PROMISING MARKET
SECTORS, 2009 - 2015
- Figure 6: LUMINESCENCE SIZE REGIMES FOR DIFFERENT SEMICONDUCTOR AND METAL
QUANTUM DOTS
- Figure 7: U.S. CONSUMPTION OF ADVANCED AND NANOSIZED CERAMIC POWDERS, 2010
- 2016
- Figure 8: SCHEMATIC DIAGRAM OF THERMAL REACTOR SYSTEM FOR PRODUCING
CERAMIC POWDERS BY CVD
- Figure 9: SCHEMATIC OF A DC ARC PLASMA FURNACE DEVELOPED BY JAPAN'S
NATIONAL RESEARCH INSTITUTE FOR METALS
- Figure 10: LOS ALAMOS RF PLASMA REACTOR
- Figure 11: PROCESS FLOWCHART FOR EMULSION PROCESS TO PRODUCE BARIUM
TITANATE
- Figure 12: CERAMIC POWDER END-USER INDUSTRIES
- Figure 13: GLOBAL CONSUMPTION OF NANOCOMPOSITES, 2010 - 2016
- Figure 14: TRENDS IN GLOBAL NANOCOMPOSITE CONSUMPTION, 2010 - 2016
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