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4/9(一)專題演講公告

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演 講 人:程海東博士

演講題目:High Energy Density and Fast Discharge Ability in the Novel Design of BaTiO3-based Nanocomposite Capacitors

2018-4-9-1

演 講 人:程海東博士

服務單位:交大國際半導體產業學院

職 稱:特聘教授

演講時間:107.04.09上午10點20分~12點10分

演講地點:工綜館203國際演講廳

個人學經歷 :

National Chiao Tung University (Taiwan): Aug. 2017 to present

CEO, Office of University Advancement

Specially Appointed Professor, International College of Semiconductor Technology

University of Macau:

· Emeritus Professor Aug. 2017 to present

· Vice Rector (Student Affairs) Sept. 2012 to Aug. 2017

· Chair Professor of Physics and Materials Science Sept. 2012 to Aug. 2017

Tunghai University (Taiwan):

· Emeritus Chair Professor Aug. 2017 to present

· President, Tunghai University Aug. 2004 to Jul. 2012

· Professor, Department of Physics, Tunghai University Aug. 2004 to Jul. 2012

City University of Hong Kong:

· Head, Department of Physics & Materials Science May 2000 to Jul. 2004

· Chair Professor of Materials Science May 2000 to Jul. 2004

University of Illinois at Urbana-Champaign (UIUC):

· Emeritus Professor, Materials Science & Engineering Jan. 2002 to present

· Adjunct Professor, Materials Science & Engineering July 2002 to July 2004

· Administrative Fellow, Office of the Vice President for Academic Affairs Aug. 1999 to July 2000

· Professor of Materials Science & Engineering Aug. 1987 to Dec. 2001

· Principal Investigator, Fredrick Seitz Materials Research Laboratory Aug. 1978 to Dec. 2001

· Director, UNICAT (Synchrotron X-ray Program) Jan. 1991 to Aug. 2001

· Chairman, Metallurgy Division Oct. 1995 to Jan. 2000

· Associate Professor, Metallurgical Engineering Aug. 1982 to Aug. 1987

· Assistant Professor, Metallurgical Engineering July 1978 to Aug. 1982

演講摘要:

The majority of the previously reported studies on nanocomposite capacitors were aimed at obtaining higher energy density (>15 J cm-3) and higher breakdown strength (>4000 kVcm-1). The operation of capacitors in such higher applied electric field would bring great challenges owing to their high failure probability. It is often desirable to obtain higher energy density but at a lower applied electric field. Nanocomposites that made from the well-dispersed and highly orientation fillers play vital roles in the high energy density, especially in the one dimension fillers aligned in one direction. In this research, a novel design that enabled the fabrication of highly [110]-oriented titanate-based nanorod array (BaTiO3 and (Ba, Sr)TiO3) was demonstrated for the first time by a three-step hydrothermal reaction.

2018-4-9