印刷電子和有機電子作為一門行業(yè)的出現(xiàn)為傳感器領(lǐng)域帶來了可觀的機遇，印刷可以幫助降低傳感器成本，也許還是生產(chǎn)多層傳感器產(chǎn)品，如電子鼻的理想途徑。新型有機材料的引入增加了傳感器制造商的選擇，最后，印刷電子制造大批量平面式感測器開始了完整新產(chǎn)品，如生物檢測的傳感器，可穿戴計算機或機器人生產(chǎn)的可能性。但是，印制傳感器和有機傳感器只是剛開始商業(yè)革命。 NanoMarkets公司的該項報告分析了印刷傳感器和有機傳感器市場，展現(xiàn)了此類傳感器最廣泛的應(yīng)用領(lǐng)域，作為分析的一部分，報告評估了適當(dāng)?shù)纳a(chǎn)技術(shù)，系統(tǒng)架構(gòu)，通信接口以及印刷傳感器和有機傳感器（轉(zhuǎn)換速度，敏感度，靈活性等）要求的性能和功效。報告還討論了重要的產(chǎn)品類型，如電子鼻，晶片實驗室，生物芯片和智能微塵，有機材料和印刷術(shù)在這些應(yīng)用中將作出巨大的貢獻。 報告中介紹的印刷傳感器和有機傳感器應(yīng)用包括智能包裝，智能紡織品和智能制服，醫(yī)療診斷，基因組學(xué)和蛋白質(zhì)組學(xué)，國土安全應(yīng)用大面積感應(yīng)，水質(zhì)測試和其他環(huán)境測試，機器人以及智能皮膚。在每項應(yīng)用中對印刷傳感器和有機傳感器進行八年的預(yù)測，報告還根據(jù)傳感器的類型提供市場預(yù)測，例如，氣體傳感器，溫度傳感器，運動傳感器，生物傳感器等，分析了貿(mào)易公司，和大學(xué)和研究組主要的研究組織當(dāng)前從事的工作。 目錄 執(zhí)行摘要 E.1 有機傳感器市場和印刷傳感器市場的關(guān)鍵機遇：設(shè)備 E.2 有機傳感器市場和印刷傳感器市場的關(guān)鍵機遇：原材料 E.3 調(diào)查公司 E.4 八年預(yù)測摘要 第一章：緒論 1.1 報告背景 1.2 主題和報告范圍 1.3 報告方法 1.4 報告計劃 第二章：技術(shù)和產(chǎn)品趨勢 2.1 介紹 2.2印刷電子和有機電子的材料平臺 2.3 印刷傳感器的優(yōu)點及使用類型 2.4 最新印刷傳感器和有機傳感器的類型 2.5 專業(yè)傳感器中印刷電子和有機電子的作用 2.5.1 電子鼻和電子舌 2.5.2 智能皮膚 2.5.3 晶片實驗室和生物芯片 2.5.4 智能微塵和傳感器陣列 2.6 最新要求性能和性能成果 2.7 有機傳感器和印刷傳感器的接口技術(shù) 第三章：市場分析 3.1 介紹 3.2 智能包裝 3.3 智能紡織品和智能制服 3.4 醫(yī)療診斷 3.5 基因組學(xué)和蛋白質(zhì)組學(xué) 3.6 國土安全 3.7 環(huán)境測試 3.8 機器人 3.9 其他 第四章：研發(fā)印刷傳感器和有機傳感器的公司和研究組 本章將包括研印刷傳感器和有機傳感器的公司和主要大學(xué)研究組簡介。 第五章：印刷傳感器和有機傳感器八年預(yù)測 5.1 預(yù)測方法 5.2 根據(jù)傳感器類型區(qū)分的八年預(yù)測 5.3 根據(jù)應(yīng)用區(qū)分的八年預(yù)測 5.4 根據(jù)材料區(qū)分的八年預(yù)測 original text： [COLOR=#708090]NanoMarkets——PRINTED AND ORGANIC SENSOR MARKETS: 2007-2015 The emergence of printed and organic electronics as an industry holds considerable promise for the sensor sector. Printing can help bring down costs of sensors and may also be the ideal way for creating multi-layered sensor products such as "electronic noses." The introduction of new organic materials increases the choices for sensor manufacturers. Finally, the ability of printed electronics to create large arrays of sensors on flexible substrates opens up possibilities for entirely new products such as sensors for biohazard detection, wearable computing or robotics. Nonetheless, printed and organic sensors are just beginning their commercial evolution. This NanoMarkets report analyzes the printed and organic sensor markets to show where such sensors can make their biggest contribution. As part of this analysis, the report assesses appropriate production technologies, system architectures and communications interfaces, as well as performance requirements and achievements for printed and organic sensors （switching speeds, sensitivity, flexibility, etc.） It also discusses important product types such as electronic noses, labs-on-a-chip, biochips and smart dust, for which organic materials and printing may make a considerable contribution. Applications of printed and organic sensors covered in the report include smart packaging, smart textiles and uniforms, medical diagnostics, genomics and proteomics, large area sensing for security apps, water and other environmental testing, robotics and smart skins. Eight-year forecasts are provided for printed and organic sensors in each of these applications. The report also provides market projections by type of sensors, e.g. gas sensors, temperature sensors, motion sensors biosensors, etc., along with an analysis of current activities of both commercial firms and major research groups at universities and research institutes. TABLE OF CONTENTS EXECUTIVE SUMMARY E.1 Key Opportunities in the Organic and Printed Sensor Market: Devices E.2 Key Opportunities in the Organic and Printed Sensor Market: Materials E.3 Firms to Watch E.4 Summary of Eight-Year Forecasts CHAPTER ONE: INTRODUCTION: 1.1 Background to Report 1.2 Objective and Scope of Report 1.3 Methodology of Report 1.4 Plan of Report CHAPTER TWO: TECHNOLOGY AND PRODUCT TRENDS 2.1 Introduction 2.2 Materials Platforms for Printed and Organic Electronics 2.3 Advantages to Printing Sensors and Types of Printing Used 2.4 Types of Printed and Organic Sensors Developed to Date 2.5 Role of Printed and Organic Electronics in Specialized Sensors 2.5.1 Electronic noses and tongues 2.5.2 Smart skins 2.5.3 Labs-on-a-chip and biochips 2.5.4 Smart dust and sensor arrays 2.6 Performance Requirements and Performance Achievements To Date 2.7 Interface Technology for Organic and Printed Sensors CHAPTER THREE: MARKET ANALYSIS 3.1 Introduction 3.2 Smart Packaging 3.3 Smart Textiles and Uniforms 3.4 Medical Diagnostics 3.5 Genomics and Proteomics 3.6 Homeland Security 3.7 Environmental Testing 3.8 Robotics 3.9 Other CHAPTER FOUR: FIRMS AND RESEARCH GROUPS INVOLVED WITH PRINTED AND ORGANIC SENSORS This chapter will consist of profiles of firms and major university groups actively involved in the development of printed and organic sensors. CHAPTER FIVE: EIGHT-YEAR FORECASTS OF PRINTED AND ORGANIC SENSORS 5.1 Forecasting Methodology 5.2 Eight-Year Forecasts of Organic and Printed Sensors by Sensor Type 5.3 Eight-Year Forecasts of Organic and Printed Sensors by Application 5.4 Eight-Year Forecasts of Organic and Printed Sensors by Material[/COLOR]