“2015印刷电子技术应用Workshop” - 上海站

“2015印刷电子技术应用Workshop” - 上海站

— 印刷电子技术在智能穿戴及装备制造领域的应用


邀请函

印刷电子(Printed Electronics)是基于印刷原理的电子学。更具体一些,是指基于传统的印刷方法制造电子器件与系统的科学与技术。大面积、柔性化、易于批量化、低成本、绿色环保等是其优点,这与硅基微电子产品形成强烈对比。常用的印刷工艺为丝网印刷、柔版印刷、凹版印刷、平板胶印以及喷墨印刷等。印刷电子制造技术中使用的“油墨”是具有导电、介电或半导体性质的材料。而印刷电子的主要用途即是制造柔性电子器件。


印刷电子技术目前还处于产业发展的初期,但是已显现其市场规模具有很大的发展潜力。据调查数据显示,印刷电子技术和产业涉及面很广,包括能印制形成电路或者电子元器件的有机、无机或者合成材料,生成晶体管、显示器、传感器、光电管、电池、照明器件、导体和半导体等器件,以及互连电路的工艺与产品。2014年印刷电子的市场规模为11.5亿美元,到2019年预计将达167亿美元,复合年均增长率约为58%。未来五年,光伏、照明、显示、智能卡片与包装将成为印刷电子最主要的应用领域。


“2015印刷电子技术应用Workshop”上海站将就“面向未来的印刷电子技术应用”这一议题进行相关探讨。会议将于11月12日在上海新国际博览中心W5号馆隆重举行。届时,第十三届中国国际半导体博览会暨高峰论坛(IC China 2015)、第86届中国电子展、2015亚洲电子展也将在同期同地举办。届时,多家领域内知名研究所专家学者、领先企业技术高管登台发表精彩演讲,部分业内企业高管、技术高管及政府代表将应邀出席。


时间: 2015年11月12日下午13:30-16:00

地点: 上海新国际博览中心W5号馆M8会议室

主办方: 常州印刷电子产业研究院

印刷电子在线 (PEonline)

承办方: 瑞同科技传媒 (WinTECH Media)


演讲嘉宾:

张霞昌 研究员 《印刷电子产业及其在可穿戴电子产品领域的发展》

“全球柔性电池之父”、国家“千人计划”专家、常州印刷电子产业研究院院长


崔铮  研究员 《印刷制备柔性可延展传感系统及其在可穿戴技术中的应用》

“千人计划”专家、中国科学院苏州纳米技术与纳米仿生研究所研究员、国际著名微纳加工技术科学家。


沈国震 研究员 《柔性传感器/探测器:从单一功能器件到多功能系统》

中国科学院半导体研究所研究员、国家教育部“新世纪优秀人才计划“、湖北省首批”百人计划“特聘专家


郭小军 研究员 《印刷电子: 连接传统制造业与物联网信息产业的桥梁》

上海交通大学特别研究员、国家教育部“新世纪优秀人才计划”上海高校特聘教授(东方学者)计划、上海市浦江人才计划


冯俊杰   博士《印刷电子国际专利现状分析与发展趋势》

思科达中美专利 合伙人、美国专利局注册代理人



参会名额:限80名,其中50名免费,30名收费(200元/位,包含座位预留、完整讲义、参会联系通讯录等服务)。


参与本次活动或申请演讲机会,请联系:

Echo Jiang 蒋小姐

MP: +86-187 2115 9685

Email: ejiang@wintechm.cn



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有关印刷电子在线

印刷电子技术是基于传统印刷方法制造电子器件的一项新技术。印刷电子以及与之相关的有机电子、塑料电子、柔性电子、纸电子、透明电子等形成一大类完全不同于硅基微电子的新型电子技术与产品,这些电子产品的大面积、柔性化与低成本特征是硅基微电子产品所不具备的,有广阔的应用前景与市场。PEonline是国内首家面向印刷电子及应用的专业传媒机构,业务范围涉及产业研究、科技媒体、线上互动、线下活动、专业展览及会议等,为您带来印刷电子领域的最新资讯及产业前沿,为相关产业企业提供一站式平台推广服务。


历届活动略影

​新闻报道

​演讲摘要:





张霞昌 博士   Dr. Zhang Xiachang

  • 全球柔性电池之父
  • 国家千人计划特聘专家
  • 常州印刷电子产业研究院院长
  • 全国印刷电子产业技术创新联盟技术专家委员会副主任

印刷电子产业及其在可穿戴电子产品领域的发展

Printed electronics industry and its development in the field of wearable electronics device

Wearable electronics device that is directly worn on the human body, or a portable device that is integrated into the user's clothes or accessories, such as glasses, gloves, watches, clothing and shoes, etc..

Beside just a hardware device, wearable electronics device also could achieve a powerful feature by software support and data exchange or cloud interaction.

From the expected of market growth, smart wearable electronics devices will take the place of some consumer technology products such as smart phone, to become the new field which is growing fastest. It will change our life and perception in the future.

Changzhou Institute of Printed Electronics Industry (CZIPEI) is the first institute established by local government in China. It is engaging in printed electronics technology industrialization and integrates the technology and application of printed electronics. Wearable electronics device is one of the most important developing trends in CZIPEI. With resource and technology, our institute will surely achieve  great success in application of wearable electronics in the future.


崔铮

  • 科院苏州纳米技术与纳米仿生研究所印刷电子中心主任
  • 2009年10月入选国家“千人计划”特聘专家(第二批、创新类、长期)
  • 苏州纳格光电科技有限公司董事长
  • 回国前曾在英国剑桥大学微电子中心与英国卢瑟福国家实验室微结构中心工作20年

印刷制备柔性可延展传感系统及其在可穿戴技术中的应用

在可穿戴电子与智能穿戴系统蓬勃发展的今天,传统电子制造已经不能完全满足所有需求,特别是对柔性化与可延展化电子系统的需求。印刷电子技术是对传统电子制造技术的颠覆性变革。印刷电子制造具有大面积、柔性化、低成本与绿色环保特征,同时可进行数字化与个性化制造,包括制备柔性与可延展电子器件与系统。

本报告介绍了满足可穿戴电子系统的各种柔性可延展器件与电路系统制造技术与集成技术,分析了印刷电子制造技术的特点与优点。结合中科院苏州纳米所印刷电子中心在过去几年中的研发工作,展示了印刷电子中心在柔性与可延展混合电路系统构建方面的成果,用实例说明了印刷制备的柔性与可延展电子电路系统在未来可穿戴技术中的应用前景。

沈国震

  • 中国科学院半导体研究所研究员
  • 国家教育部“新世纪优秀人才计划”
  • 湖北省首批“百人计划”特聘专家

柔性传感器/探测器:从单一功能器件到多功能系统

Flexible Sensors/detectors: from single functional devices to mulcifunctional systems

High-performance flexible microelectronics and macroelectronics utilizing single-crystalline semiconductors as the active materials have been keenly studied in recent years. Flexible devices, which can principally be fabricated on a large scale via printing technologies, have not only retained the bendability, light-weight, and shock-resistant features that plastic materials have to offer but also demonstrated superb performance such as high effective carrier mobility, multigigahertz operation capability, etc. In this talk, we will briefly introduce our recent efforts on fabricating flexible sensors/detectors using 1D semiconductor nanostructures.  

郭小军

  • 上海交通大学特别研究员
  • 国家教育部“新世纪优秀人才计划”上海高校特聘教授(东方学者)计划
  • 上海市浦江人才计划

印刷电子:连接传统制造业与物联网信息产业的桥梁

Printed ELECTRONICS: Bridging the traditional Manufacturing industry and information society of iot

The conventional printing industry is facing challenges for creating greater values in a sustainable way. On the other hand, the popularity of Internet of Things (IoT) for the information society demands large volume sensors, which need to be in different kinds of form factors and capable of detecting a wide range of physical, chemical or bio- signals. Manufacturing of these sensors should also be of low cost and fast throughput. These bring massive challenges for the silicon semiconductor technology. This presentation will discuss the possibilities of using the printed electronics technology to address the issues, which would serve as a good example showing the way of bridging the conventional industry to the modern information society. The related technical and non-technical challenges will also be highlighted. Finally, our recent research work in SJTU on printed sensors and system applications will be presented.

冯俊杰
  • 杜克大学(Duke University)博士
  • 曾于维克佛利斯特大学(Wake Forest University)任助理教授
  • 现任美国思科达中美专利 (Syncoda Technologies) 合伙人、美国专利局注册代理人
印刷电子国际专利现状分析与发展趋势
patent landscape analysis for organic/printed electronics
The last 15 years have witnessed a rapid development of organic/printed electronics technologies, which has promised the advent of an era when flexible, versatile, and sometimes functionally superior electronic products can be mass-produced to profoundly change everyone’s life.  
To compete for this huge market, which is estimated to reach over $73 billion by 2025, many companies worldwide are ardently developing their proprietary technologies, including OLED display and lighting, thin-film batteries and solar cells, printed RFID, sensors, logic and memory, wearables and smart packaging, based on which a diverse variety of flexible/printed electronics products are starting hitting the market to fulfill their promise.

This presentation intends to offer technology and competitive insights by analyzing the global patent landscape of the organic/printed electronics industry.  These insights may help understand the current market landscape, pin-point the changing competition dynamics, and forecast the future trend, for better positioning and for better developing growth strategies.


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