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No: T-2   更新時間:2017/9/11 下午 01:50:39

 

新型顯示材料研討會

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會議名稱: 新型顯示材料研討會
時間地點: 2017/9/21 09:00-16:00, 台北世貿南港展覽館四樓(台北市南港區經貿二路1號)四樓402C會議室
主辦單位: 台灣平面顯示器材料與元件產業協會 (TDMDA)
協辦單位: 台灣顯示器產業聯合總會(TDUA)、工業技術研究院(ITRI)
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https://goo.gl/EWqQr1 (需用Google瀏覽器開啟)
(2) 於8/25(五)前報名並完成繳費者,即可享有早鳥之優惠價格。
(3) 主辦單位保留變更議程與講師之權利。

其它詳細資訊請下載報名表參考,謝謝您!
聯絡資訊: 台灣平面顯示器材料與元件產業協會(TDMDA)
Tel: 886-3-5916872 黃小姐
E-Mail: yuchieh@itri.org.tw
Tel: 886-3-5912264 張小姐
E-Mail: itri533983@itri.org.tw
www.tdmda.org.tw 

 

議程表

 

時間 主講人 議題
09:30 - 09:35 溫俊祥 主持人
09:35 - 10:20 David Yao TV Technology: Next Steps In Quantum Dots
10:20 - 11:05 羅忠昇 Emerging Displays Enabled by Quantum Dot Technology
11:15 - 12:00 李宗銘 下世代顯示關鍵材料技術
13:15 - 13:20 顧鴻壽 主持人
13:20 - 14:05 陳威揚 3M光學膠在LCD, OLED 及在車用顯示器之應用
14:05 - 14:50 許時紹 Merck’s Novel Materials for Display & Printed Electronics
15:00 - 15:45 David Flattery Advanced Polyimides for Flexible Display Substrates
15:45 - 16:30 西村 涼 Advanced optical design of functional films by controlling nano-structure

 

主講人

 

 

 

主持人 

Chairman

 

溫俊祥

副組長

工研院材化所

 

 

回議程表

 

 

 

TV Technology: Next Steps In Quantum Dots 

 

David Yao

Senior VP of Global Sales

Nanoco

 

講者簡介:

David Yao
Senior VP of Global Sales
Nanoco Technologies (www.nanocotechnologies.com)

As Senior VP of Global Sales for Nanoco, Mr. David Yao specializes in building sustainable sales growth and customer relationships in Nanoco’s key display markets in Asia and North America, further strengthening Nanoco’s commercial leadership in development of cadmium free quantum dots CFQD® products across the globe. Nanoco is the leading developer of heavy metal free quantum dots and semiconductor nanoparticles for the display, lighting and bio-imaging industries.

Prior to joining Nanoco Yao was VP of Worldwide Sales at Cambrios Technologies in California, and previously was VP of Sales with Synerchip Technologies. During his time at both companies, Hao led sustainable sales growth through building sales teams, local distribution channels and strong customer relationships across Asia and North America.

Yao holds a BSEE in Electrical and Electronics Engineering from Santa Clara University.

 

演講大綱:

Known for emitting beautiful, vibrant and true-to-life color performance, quantum dots in LCD TVs has been one of the most exciting developments this decade has experienced in display, rivaling next generation OLEDs. As attention turns beyond pixels, demand for these newer technologies that deliver high dynamic range and wider color gamut at lower costs will surge.

This session will discuss:
• What’s behind the growing demand for achieving perfect, life-like color
• The role of quantum dots in achieving wider color gamut and enhanced picture quality
• How to innovate in display and meet market demand, while satisfying compliance and corporate responsibility concerns

 

回議程表

 

 

 

Emerging Displays Enabled by Quantum Dot Technology 

 

羅忠昇

General Manager / Greater China & Application Engineering

Nanosys, Inc.

 

講者簡介:

Dr. ZhongSheng Luo is the General Manager of Greater China and Applications Engineering Director of Nanosys Incorporation. He obtained his Bachelor and Master degree in Materials Science and Engineering from Tsinghua University, China and his Ph.D in Materials Science and Engineering from University of California Berkeley, prior to starting his career in 2005 as an Applications Engineer. Dr. Luo began his career in Nanosys Inc. as a Sr. Technical Marketing Engineer in 2009 and became the Technical Marketing Manager in 2011. In 2012, he left Nanosys to lead the advanced product development activities for optical inspection equipment in KLA-Tencor Incorporation as a Principal Application Engineer. He rejoined Nanosys in 2015 as Director of Applications Engineering.

 

演講大綱:

The world has seen an increasing demand for high color gamut displays since the first introduction of QDEF product by 3M and Nanosys to the market in 2013. According to IHS Markit, the share of wide color gamut TV shipments among the UHD TV segments has gone from virtually 0% in 2013 to almost 15% in 2017. The superior color performance brought by quantum dot technology has visually convinced consumers that color is critical to the picture quality of a display. As further evidence of a shift in consumer viewing preference, today most of the flagship TV products have already adopted wide color gamut of at least >90% DCI-P3 and some devices are even approaching 90% of BT. 2020 coverage. We are entering an exciting era for display – many new displays are emerging with better and better visual experience. In this talk, we will review all the new emerging displays that are enabled by quantum dot technology, including the already commercialized quantum dot displays based on QDEF, the upcoming photo-emissive quantum dot color filter replacement displays, microLED displays using quantum dot as color conversion, and the ultimate electroluminescent quantum dot light emitting diode displays. In addition, we will also review the status of such emerging displays and discuss challenges faced ahead.

 

回議程表

 

 

 

下世代顯示關鍵材料技術 

Materials for next generation display

 

李宗銘

副所長

材料與化工研究所(工研院)

 

講者簡介:

學歷:
 清華大學化工研究所 博士

經歷:
 工研院材化所 副所長(現職)
 工研院材化所有機組組長

榮譽/專利/論文等:
專長領域:
 高分子奈米複合材料技術
 電子構裝材技術
 光電顯示材料技術

 

演講大綱:

顯示器與我們生活息息相關,而創新材料對新世代顯示技術的發展影響甚大,本次演講內容將介紹下世代顯示器用關鍵材料技術的發展現況,內容將涵蓋下世代顯示器用基板、導體、發光及相關功能性材料等項目,並針對各種材料的特性分析進行說明。

 

回議程表

 

 

 

主持人 

Chairman

 

顧鴻壽

教授

明新科技大學

 

 

回議程表

 

 

 

3M光學膠在LCD, OLED 及在車用顯示器之應用 

3M OCA in LCD, OLED and Automotive Applications

 

陳威揚

技術經理

公司名稱(中文) 台灣明尼蘇達礦業製造股份有公司

 

講者簡介:

學歷: 淡江大學水資源及環境工程所 碩士
經歷:
技術經理 2017 till now, 3M 全球液晶顯示光學材料實驗室
技術服務經理 2012 – 2016, 3M Taiwan 顯示材料暨系統部門
技術服務主任 2008 – 2011, 3M Taiwan 光學系統部門
技術服務工程師 2005 – 2007

榮譽/專利/論文等:
光學膜技術, 光學膠, 背光光源與光學零組件
TDMDA, PIDA, 關鍵零組件雜誌  專題講師

 

演講大綱:

OCA (Optically Clear Adhesives) is widely applied in touch panel and cover glass lamination in Mobile LCD display. With the technology moving forward, OLED display and Automotive application getting popular and mature. In this topic, 3M will talk about OCA application, industry design trend and 3M solutions for LCD/OLED and Automotive applications.

 

回議程表

 

 

 

Merck’s Novel Materials for Display & Printed Electronics 

 

許時紹

印刷式電子銷售處長

默克先進科技材料股份有限公司

 

講者簡介:

Education:
MBA, Hofstra University (NY, USA)
Chemical Engineering, Yuan-Ze University (Taoyuan, Taiwan)
Experience:
(2015~) Head of Business Development PE, PM-A New Platforms, Merck
(2013) Head of Strategic Marketing, PM-A Electronic Materials, Merck
(2011) Market Intelligence Manager, PM-D Liquid Crystals Business Unit, Merck
(2008) Technical Marketing Manager, PM-D Liquid Crystals Business Unit, Merck
(2005) Sales Engineer, PM-D Liquid Crystal Business Unit, Merck

 

演講大綱:

Dielectric materials play key roles in backplane to support TFT performance. Moreover, dielectric materials can be applied as functional film in devices such as electric insulation, anti-static, light management (Refractive index control), process materials (planarization, bank for OLED inkjet process), protection layer (passivation, barrier) and so on.

Merck’s Silicone based materials (Siloxanes and Silazanes) are polymers specially designed for high performance display applications by higher optical transparency, light management (RI matching), electric characteristics and high durability film (thermal, UV, chemical).

The recent trend in organic thin-film transistors has been towards favoring easy processing over headline device mobility, however there is still a desire within the industry for higher performance organic semiconductors. At Merck, we have developed a portfolio of active and passive materials suitable for integration into display stacks using both industry standard photo-lithography and the latest printing technology.
We demonstrate that Merck’s polymer thin-film transistor material-set can provide performance equivalent to amorphous silicon using either a fully printed process or a photo-lithographic process compatible with existing fab infrastructure. Further to this, we show recent work on transferring the same materials stack to our next generation high performance polymer semiconductor with mobility around 2 cm2/Vs.
These activities support Merck’s vision for a flexible future where cutting edge materials enable creative new device form-factors and applications for display technology across a wide range of manufacturing techniques.



 

回議程表

 

 

 

Advanced Polyimides for Flexible Display Substrates 

 

David Flattery

Global Business Manager

Dupont

 

講者簡介:

David Flattery is the Global Business Manager for DuPont’s Display Business Unit where he is focused on commercialization of a variety of advanced display materials and technologies developed at DuPont. He has worked in the semiconductor and display industry for over 30 years in various research, operational, and leadership roles. Dave has been with DuPont since 1993 and with its OLED venture since 2001. Prior to OLED, he developed polyimide and photopolymer products from R&D through production for several of DuPont’s electronic material businesses. Before joining DuPont, Dave was a principal of Spectrum Consulting Group providing technology consulting for display and semiconductor processing. Previously he was Vice President of Research and Marketing at Radiant Technology Corporation developing process equipment for semiconductor, electronics, and photovoltaic manufacturing

 

演講大綱:

The exciting product design space that can be accessed through flexible display components has initiated many development programs to improve materials required for their manufacture. This presentation summarizes the developments at DuPont to create polyimide materials suitable for various layers in flexible display constructions. Polyimides offer exceptional thermal and mechanical properties but require modification to meet the optical requirements of display applications. Typical trade-offs between characteristics of the materials will be discussed and properties of several new polyimides designed for display applications, both liquid and film, will be described. These materials are targeted for substrates for flexible OLED displays, curved LCD displays, flexible touch sensors, or coverlens applications.

 

回議程表

 

 

 

Advanced optical design of functional films by controlling nano-structure 

 

西村 涼

Deputy General Manager

JXTG Nippon Oil & Energy Corporation

 

講者簡介:

Education:
1993/03 
Received his Ph. D. from Institute of Biomedical Engineering, Faculty of Science and Technology, Keio University, Japan.
2000/10~2002/09
Visiting Researcher, Department of Chemistry, The Pennsylvania State University, USA

Experience:
・Development of Retarders for LCD
・Enhancement of photoelectric conversion efficiency using photonic crystals
・Development of surface emitting laser using liquid crystalline polymer
・Development of light extraction technique for organic EL lighting.
・Development of functional films by nano-imprint.

Awards/Honors/Patents/Publications:
・More than 70 patents.
・Main publications as below:
 ・S. Nishimua, H. Mazaki, “Development of liquid crystalline polymer film “Nisseki LC Film” for viewing angle compensation of various
LCD modes”, Mol. Cryst. Liq. Cryst., Vol.458, pp.35-43, 2006
・S. Nishimura, N. Abrams, B. A. Lewis, L. Halaoui, T.E. Mallouk, K. D. Benkstein, J. van de Lagemaat and A. J.Frank,
“Standing wave Enhancement of Red Absorbance and photocurrent in dye-sensitized titanium dioxide photoelectrodes
coupled to photonic crystals”, J. Am. Chem. Soc. Vol.125, pp.6306-6310, 2003
 ・M. H. Song, N. Y. Ha, K. Amemiya, B. Park, Y. Takanishi, K. Ishikawa, J. W. Wu, S. Nishimura, T. Toyooka and H. Takezoe,
“Defect-Mode Lasing with Lowered Threshold in a Three-Layered Hetero-Cholesteric Liquid-Crystal Structure”, Adv. Mater. 18 (2006) 193-197.
 ・J. Hwang, M. H. Song, B. Park, S. Nishimura, T. Toyooka, J. W. Wu, Y. Takanishi, K. Ishikawa and H. Takezoe,
“Electro-Tunable Optical Diode using an Anisotropic Layer Sandwiched by Hetero-Photonic Bandgap Cholesteric Liquid Crystal Films”,
Nature Materials, 4 (2005) 383-387.
・ N. Y. Ha, Y. Ohtsuka, S. M. Jeong, S. Nishimura, G. Suzaki, Y. Takanishi, K. Ishikawa, H. Takezoe, “Fabrication of a simultaneous red-green-blue
reflector using single-pitched cholesteric liquid crystals”, Nature Materials 7 (2008) 43-47.
 ・W. H. Koo, S. M. Jeong, F. Araoka, K. Ishikawa, S. Nishimura, T. Toyooka, and H. Takezoe, “Light extraction from organic light emitting
diodes enhanced by spontaneously formed buckles”, Nature Photonics, 4 (2010) 222-225.

 

演講大綱:

We are developing novel retarders manufactured with nano-imprinting technology and have applied to anti-reflection films of flexible OLEDs with novel wavelength dispersion characteristics. In addition, we have developed monomer for highly heat-resistant colorless polyimide and have proposed it for flexible display materials. Furthermore, an ultra-transparent projection screen film has been developed by using nano-dispersion technique.

 

回議程表

 

 

 

 

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