学术报告
高分子科学系列讲座137、138讲:香港浸会大学,Prof. Beng Ong、Prof. Furong Zhu
文章来源: 发布时间:2012-06-19
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报告题目一:Towards Printed Electronics-A Decade of Progress in Enabling Materials(No. PSLAB137-PS2012-15) |
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报 告 人:Prof. Beng Ong |
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单 位:香港浸会大学 |
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报告时间:2012年6月21日(星期四)下午14:30 |
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报告地点:主楼四楼学术厅(410房间) |
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报告内容摘要:
Printed microelectronic arrays and circuits offer an appealing approach to creating the long‐sought after, low‐cost, large‐area, flexible electronics. To realize this emerging technology, manufacture of semiconductor devices by high‐speed printing, instead of traditional photolithographic processes, would be paramount. Foremost among critical enablers to propel this paradigm shift in manufacturing are ambient stable, solution‐processed high‐performance semiconductor, conductor and dielectric materials for printing functionally capable thin‐film transistors – fundamental building blocks of microelectronics. This presentation discusses the issues, challenges, and advances in the development of enabling materials for printed electronics over the last decade, and the outlook for this emerging technology moving forward.
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| 报告人介绍 |
Prof. Beng Ong |
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王明顺 (或王明) 教授目前是香港浸会大学创意研究院副院长和材料科学讲座教授. 在此之前, 他曾担任过新加坡科技研究局(A*STAR) 的科学工程研究理事会 (SERC) 项目主任(Programme Director), 材料研究工程所 (IMRE) 和制造技术研究所 (SIMTech) 执行所长室主任. 多年来,他担任过各大学学术职务, 包括新加坡南洋理工大学南洋教授, 加拿大麦克马斯特大学和滑铁卢大学兼职教授, 中国上海交通大学兼职教授和华东理工大学名誉教授. 在2007 年搬迁到亚洲之前,王教授是美国施乐公司高级研究院士和加拿大施乐研究中心先进材料和有机电子器件研究区域经理. 他同时也担任施乐公司二十世纪材料计策家. 他研究和技术商业化工作卓越,为施乐在国际建立材料研究突出声誉,也成功地把许多材料技术概念从实验室商业化到市场上. 他目前拥有二百一十八项美国专利及许多加拿大,欧亚各国同等专利权, 也发表了许多广泛先进材料, 纳米技术和新兴技术研究论文. 从2004 年起, 王教授被邀请在国际学术大会给超过一百五十次学术报告演说. 因为对先进材料研究有显著贡献, 2004 年他被引进美国著名的“科学美国人” 50 超越名人堂 (化学和材料业务领袖). 在2006 年, 他也获得他母校南洋卓越校友奖. 此外, 许多他在施乐公司领导的技术项目都赢获得国际奖. 这包括纳米材料创新奖和纳米技术商业化奖(2007), 美国化学学会创新奖 (2006), 康涅狄格质量改进金奖(2006), 和华尔街日报科技创新亚军奖 (2005) 等等.王教授前在新加坡南洋大学受教育. 获得学士学位后, 他接着越洋到加拿大麦吉尔大学读博士.之后他在美国哈佛大学作博士后研究直到受聘于施乐研究中心。 |
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报告题目二:Absorption enhancement in organic solar cells using a grating electrode(No. PSLAB138-PS2012-16) |
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报 告 人:Prof. Furong Zhu |
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单 位:香港浸会大学 |
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报告时间:2012年6月21日(星期四)下午14:30 |
|
报告地点:主楼四楼学术厅(410房间) |
|
报告内容摘要:
Light trapping is a promising approach, e.g., by scattering the incident light to obliqueangle to increase the effective optical path in the active layer, to improve light absorptionin organic solar cells (OSCs). In this work, the absorption enhancement in OSCs isrealized using a poly(methyl methacrylate) (PMMA)/indium-tin-oxide (ITO) gratingelectrode. Photovoltaic characteristics such as external quantum efficiency and powerconversion efficiency of a set of structurally identical OSCs made with a planar ITOanode (control device) and a PMMA/ITO grating electrode were analyzed. The gratingincorporated OSCs resulted in a ~10% increase in short circuit current density (Jsc) as compared to the planar device. The results reveal that over 60% of enhancement in Jsc is due to an enhanced spectral responsivity via the light scattering effect. Our experiment results agree with FDTD simulation in showing that the light coupled into the waveguide mode in the active layer is mainly responsible for the absorption enhancement in the devices. This was contributed by the PMMA/ITO grating electrode. |
|
报告题目一:Towards Printed Electronics-A Decade of Progress in Enabling Materials(No. PSLAB137-PS2012-15) |
|
报 告 人:Prof. Beng Ong |
|
单 位:香港浸会大学 |
|
报告时间:2012年6月21日(星期四)下午14:30 |
|
报告地点:主楼四楼学术厅(410房间) |
|
报告内容摘要:
Printed microelectronic arrays and circuits offer an appealing approach to creating the long‐sought after, low‐cost, large‐area, flexible electronics. To realize this emerging technology, manufacture of semiconductor devices by high‐speed printing, instead of traditional photolithographic processes, would be paramount. Foremost among critical enablers to propel this paradigm shift in manufacturing are ambient stable, solution‐processed high‐performance semiconductor, conductor and dielectric materials for printing functionally capable thin‐film transistors – fundamental building blocks of microelectronics. This presentation discusses the issues, challenges, and advances in the development of enabling materials for printed electronics over the last decade, and the outlook for this emerging technology moving forward.
|
| 报告人介绍 |
Prof. Beng Ong |
| |
王明顺 (或王明) 教授目前是香港浸会大学创意研究院副院长和材料科学讲座教授. 在此之前, 他曾担任过新加坡科技研究局(A*STAR) 的科学工程研究理事会 (SERC) 项目主任(Programme Director), 材料研究工程所 (IMRE) 和制造技术研究所 (SIMTech) 执行所长室主任. 多年来,他担任过各大学学术职务, 包括新加坡南洋理工大学南洋教授, 加拿大麦克马斯特大学和滑铁卢大学兼职教授, 中国上海交通大学兼职教授和华东理工大学名誉教授. 在2007 年搬迁到亚洲之前,王教授是美国施乐公司高级研究院士和加拿大施乐研究中心先进材料和有机电子器件研究区域经理. 他同时也担任施乐公司二十世纪材料计策家. 他研究和技术商业化工作卓越,为施乐在国际建立材料研究突出声誉,也成功地把许多材料技术概念从实验室商业化到市场上. 他目前拥有二百一十八项美国专利及许多加拿大,欧亚各国同等专利权, 也发表了许多广泛先进材料, 纳米技术和新兴技术研究论文. 从2004 年起, 王教授被邀请在国际学术大会给超过一百五十次学术报告演说. 因为对先进材料研究有显著贡献, 2004 年他被引进美国著名的“科学美国人” 50 超越名人堂 (化学和材料业务领袖). 在2006 年, 他也获得他母校南洋卓越校友奖. 此外, 许多他在施乐公司领导的技术项目都赢获得国际奖. 这包括纳米材料创新奖和纳米技术商业化奖(2007), 美国化学学会创新奖 (2006), 康涅狄格质量改进金奖(2006), 和华尔街日报科技创新亚军奖 (2005) 等等.王教授前在新加坡南洋大学受教育. 获得学士学位后, 他接着越洋到加拿大麦吉尔大学读博士.之后他在美国哈佛大学作博士后研究直到受聘于施乐研究中心。 |
|
报告题目二:Absorption enhancement in organic solar cells using a grating electrode(No. PSLAB138-PS2012-16) |
|
报 告 人:Prof. Furong Zhu |
|
单 位:香港浸会大学 |
|
报告时间:2012年6月21日(星期四)下午14:30 |
|
报告地点:主楼四楼学术厅(410房间) |
|
报告内容摘要:
Light trapping is a promising approach, e.g., by scattering the incident light to obliqueangle to increase the effective optical path in the active layer, to improve light absorptionin organic solar cells (OSCs). In this work, the absorption enhancement in OSCs isrealized using a poly(methyl methacrylate) (PMMA)/indium-tin-oxide (ITO) gratingelectrode. Photovoltaic characteristics such as external quantum efficiency and powerconversion efficiency of a set of structurally identical OSCs made with a planar ITOanode (control device) and a PMMA/ITO grating electrode were analyzed. The gratingincorporated OSCs resulted in a ~10% increase in short circuit current density (Jsc) as compared to the planar device. The results reveal that over 60% of enhancement in Jsc is due to an enhanced spectral responsivity via the light scattering effect. Our experiment results agree with FDTD simulation in showing that the light coupled into the waveguide mode in the active layer is mainly responsible for the absorption enhancement in the devices. This was contributed by the PMMA/ITO grating electrode. |
| 报告人介绍 |
Prof. Furong Zhu |
 |
1983: B.Sc. Hons, Physics/Fudan University
1993: Ph.D, Charles Darwin University, Australia 1993-1995: Department of EEE, Kyoto University, Japan, Postdoctoral Fellow 1995-1997: Department of Physics, Murdoch University, Australia, Research Fellow 1998-2000: IMRE, Singapore, Research Scientist 2001-2009: IMRE, Singapore, Senior Scientist 2009-present: Department of Physics, Hong Kong Baptist University, Prof. Research interests: (1) Organic photovoltaics, OLEDs (2) Thin film physics and surface science (3) Physics of oxide semiconductor thin films and applications
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