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市場調查報告書
高性能噴墨印刷用原料市場:2009年至2016年預測
Materials for Functional Inkjet Printing: A Market Forecast, 2009-2016
| 出版商 |
NanoMarkets |
| 出版日期 |
2008年11月 |
商品編碼 |
69480 |
| 內容資訊 |
英文 125 Pages |
| 價格 |
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高性能噴墨印刷用原料市場:2009年至2016年預測 是由出版商NanoMarkets在2008年11月所出版的。
這份英文市場調查報告書包含125 Pages 價格從美金995起跳。
本報告書內容包括:高性能噴墨印刷用原料市場調查、墨水化學、噴頭技術、噴墨應用要項、未來八年市場預測、各地區價格、營收等,內容綱要摘記如下:
摘要
第1章 前言
第2章 墨水化學與噴頭技術
- 水性墨水系統
- 墨水化學與原料:非水性系統
- 墨水化學與原料:金屬墨水
- 有機墨水
- 矽墨水
- 奈米碳管技術(CNT)墨水
- 生物材料
- 主要噴頭製造業者
- 要點
第3章 各應用噴墨要項
- 立體模型與快速預印
- 汽車零件
- PCB Masking與生產
- 微電子
- 有機電子
- 光學電子
- 生物醫學
- RFID
- 安全印刷
- 噴墨電子
- 顯示、廣告看板應用
- 太陽能發電
- 接著劑
- 陶瓷、玻璃調和劑
- 生物流體、酵素、醫療用調和劑
- 生物墨水
- 要點
第4章 未來八年市場預測
- 預測範圍與原理
- 預測方法
- 未來八年預測前提
- 高性能噴墨用墨水原料
- 高性能噴墨用墨水需求:全球各地區
- 全球高性能噴墨用墨水價格
- 全球高性能噴墨用墨水營收:各墨水類別
- 全球高性能噴墨用墨水營收:各地區
- 高性能噴墨用墨水應用
- 高性能噴墨技術
關於作者
圖表
Abstract
As a mature additive process, printing has long been attractive in
manufacturing environments that extend well beyond traditional graphics.
Conductive inks, for example, revolutionized the manufacturing of consumer
electronics in the 1970s enabling low-cost circuit boards and membrane
switches. The arrival of inkjet printing, however, has added new dimensions to
this kind of functional printing. Inkjet offers finer features and the ability
to customize products in a way never before possible. And all at relatively
low costs. In the electronics industry, inkjet is seen as an effective way to
prototype devices before they go to the fab and inkjet is already providing
better economics in the display industry. Inkjet is also used to create
automotive components and appears to have a future in areas as diverse as
MEMS, biotechnology, photovoltaics and smart textiles.
The surge in interest in functional printing is creating interesting new
opportunities for ink makers. At the same time these opportunities are spread
over a large number of applications, so some are potential major revenue
generators, while others are no more than niches. This raises the question of
how ink makers and other materials suppliers can best capitalize on the growth
of functional printing in terms of the materials used in inks and the
performance characteristics of those inks. This report addresses this question
directly. It identifies and also quantifies these opportunities in functional
inkjet over the next eight years.
We believe that this new study will be of interest not just to materials
companies, but also to manufacturers of industrial inkjet equipment firms, and
to the developers of printed devices themselves. In addition to an analysis of
current trends and performance requirements, the report also provides an
eight-year forecast of functional inks for jetting machinery.
Table of Contents
Executive Summary
- E.1 Emerging Opportunities in Functional Inkjet Ink
- E.1.1 Opportunities for Ink Makers
- E.1.2 Opportunities for Equipment Makers
- E.1.3 Opportunities for Product Developers
- E.2 Key Players in the Functional Jetting Ink Business
- E.2.1 Firms to Watch
- E.2.2 R&D Facilities and Universities
- E.3 The Investment Picture for Functional Inks
- E.4 Summary of Eight-Year Market Forecasts
Chapter One: Introduction
- 1.1 Background to this Report
- 1.1.1 Evolution of Fluids for New Industrial Applications
- 1.2 Objective and Scope of this Report
- 1.3 Methodology
- 1.4 Plan of this Report
Chapter Two: Ink Chemistry and Printhead Technology
- 2.1 Aqueous Ink Systems
- 2.1.1 Pigment Dispersions
- 2.1.2 Drying Rates and Substrate Interaction
- 2.2 Ink Chemistry and Materials: Non-Aqueous Systems
- 2.2.1 Solvent Types and Benefits
- 2.2.2 Phase Change Inks
- 2.2.3 Pigment Dispersions
- 2.2.4 Shelf-Life
- 2.2.5 UV/EB Systems
- 2.3 Ink Chemistry and Materials: Metallic Inks
- 2.3.1 Silver Ink
- 2.3.2 Experimental Nanosilver Particle Synthesis
- 2.3.3 Nanogold Ink
- 2.3.4 Copper and Copper-Silver Inks
- 2.3.5 Processing Trends
- 2.3.6 Impact of Nanomaterials on Curing Times and Temperature
- 2.3.7 Impact of Nanomaterials on Conductivity
- 2.3.8 Challenges
- 2.4 Organic Inks
- 2.4.1 Small Polymers
- 2.4.2 Polymers
- 2.4.3 Oligomers
- 2.4.4 Hybrid Materials
- 2.4.5 Organic Materials for Light Emission
- 2.4.6 Polymer OLEDs
- 2.5 Silicon Inks
- 2.5.1 Silicon Nanocrystals (Quantum Dots): Emerging Technology and
Manufacturing Processes
- 2.5.2 Jetting Silicon
- 2.5.3 Seiko Epson
- 2.5.4 Other "Quantum Dot" Ink Formulations
- 2.5.5 MEMS
- 2.6 Carbon Nanotube Technology (CNT) Inks
- 2.7 Biomaterials
- 2.7.1 Biofabrication and Engineering of Tissue
- 2.7.2 Drug Dispensing
- 2.7.3 Sensors Using Biomaterials
- 2.7.4 Potential Damage to Biological Materials
- 2.8 Key Printhead Manufacturers
- 2.8.1 IP/Technology-Base Comparison
- 2.8.2 Printhead Limitations
- 2.9 Key Points
Chapter Three: Jetted Ink Requirements by Application
- 3.1 Three-dimensional Modeling and Rapid Prototyping
- 3.1.1 Major Manufacturers
- 3.1.2 Inkjet Fluid and Materials
- 3.1.3 Combinatorial and High Throughput Methods for Materials Discovery
- 3.1.4 Three-dimensional Printing
- 3.2 Automotive Components
- 3.2.1 Automotive Textiles
- 3.3 PCB Masking and Manufacture
- 3.3.1 Inkjet Printing of Multiple Layers
- 3.4 Microelectronics
- 3.4.1 MEMS
- 3.4.2 Electrical Interconnects
- 3.4.3 Embedded Passives
- 3.4.4 Chip-Scale (3-D) Packaging
- 3.5 Organic Electronics
- 3.6 Optoelectronics
- 3.6.1 Micro-lenses
- 3.6.2 Waveguides
- 3.6.3 Sensors
- 3.7 Biomedical
- 3.7.1 DNA and Protein Deposition
- 3.7.2 Biopolymers, Cells, Drug Dispensing
- 3.8 RFID
- 3.8.1 Printed RFID
- 3.8.2 Antennas
- 3.8.3 Printing RFID Chips
- 3.9 Security Printing
- 3.9.1 Banknotes/Currency
- 3.9.2 Inks and Marking ID Technologies
- 3.9.3 Thermochromatic/Photochromic Inks
- 3.9.4 Smartcards
- 3.10 Intelligent Electronics
- 3.10.1 Smart Packaging
- 3.10.2 Smart Textiles
- 3.11 Display and Signage Applications
- 3.11.1 Frontplanes and Backplanes
- 3.11.2 Color Filters
- 3.12 Photovoltaics
- 3.12.1 Active Materials
- 3.12.2 Contacts for Photovoltaics
- 3.13 Adhesive Dispensing
- 3.14 Ceramic and Glass Dispensing
- 3.15 Bio-fluid, Enzyme, and Medical Dispensing
- 3.16 Key Points
Chapter Four: Eight-Year Market Forecasts
- 4.1 Scope and Philosophy of Forecasts
- 4.2 Forecasting Methodology
- 4.3 Eight-Year Forecast Assumptions
- 4.4 Functional Inkjet Ink Materials
- 4.5 Functional Inkjet Ink Demand by Worldwide Region
- 4.6 Worldwide Functional Inkjet Ink Pricing
- 4.7 Worldwide Functional Inkjet Ink Revenue by Ink Type
- 4.8 Worldwide Functional Inkjet Ink Revenue by Region
- 4.9 Applications for Functional Inkjet Ink
- 4.9.1 Photovoltaics
- 4.9.2 RFID, Smart Packaging, Labels, and Brand Protection
- 4.9.3 Display and Signage
- 4.9.4 Biofluid and Medical Dispensing
- 4.9.5 Automotive Components
- 4.9.6 Three-dimensional Modeling and Rapid Prototyping
- 4.9.7 Microelectronics/MEMS
- 4.9.8 Security Printing
- 4.9.9 PCB Manufacturing and Masking
- 4.9.10 Smart Textiles
- 4.9.11 Adhesive Dispensing
- 4.9.12 Ceramics and Glass Dispensing
- 4.10 Functional Inkjet Technologies
- Abbreviations and Acronyms Used in this report
About the Author
List of Exhibits
- Exhibit E-1 Inkjet Materials Used in 3-D and Rapid Prototype Manufacturing
- Exhibit E-2 Worldwide Functional Ink Revenue by Ink Type 2009-2016 ($
Millions)
- Exhibit 2-1 Conductivity of Metal
- Exhibit 2-2 NanoMas Ink Specifications
- Exhibit 2-3 Characteristics of OE Materials
- Exhibit 2-4 Light Emitting Materials for OLEDs
- Exhibit 3-1 Inkjet Materials Used in 3-D and Rapid Prototype Manufacturing
- Exhibit 3-2 Major Firms Involved in Printed RFID
- Exhibit 4-1 Worldwide Functional Ink Demand by Ink Type, (Million Liters)
- Exhibit 4-2 Worldwide Functional Ink Demand by Region, (Million Liters)
- Exhibit 4-3 Worldwide Industrial Inkjet Fluid Average Pricing ($)/Liter
- Exhibit 4-4 Worldwide Functional Ink Revenue by Ink Type ($ Millions)
- Exhibit 4-5 Worldwide Ink Revenue by Region ($ Millions)
- Exhibit 4-6 Key Industrial Ink Jet Fluid Applications, Worldwide (Liters)
- Exhibit 4-7 Worldwide Revenue by Application ($ Million)
- Exhibit 4-8 Worldwide Ink Volume by Technology, Liters
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