Takehiko Kitamori, Dr. Eng.
Professor, Department of Applied Chemistry, School of Engineering
The University of Tokyo
Degrees:
1980 B. Sc., The University of Tokyo, Department of Pure and Applied Sciences(Course of Physics and Mathematics)
1989 D. Eng. , The University of Tokyo
Business Experiences and Academic Positions:
1980 Research Staff, Energy Research Lab, Hitachi Ltd.
1989 Assistant Professor, The University of Tokyo
1990 Lecturer, The University of Tokyo
1991 Associate Professor, The University of Tokyo
1998~Professor, The University of Tokyo
1998~2009Project Leader of "Integrated Chemistry Project", Kanagawa Academy of Science and Technology (Additional Post)
2008~2009 Councilor ,Vice-Dean, Graduate School of Engineering, The University of Tokyo
2010~2012Councilor, Dean, Graduate School of Engineering, The University of Tokyo
2012~2014 Vice President, The University of Tokyo
2013~2015 Director General, Division for Environment, Health and Safety, The University of Tokyo
2014 Special Assistant to President(Human Resource Development & Internationalization)
Takehiko Kitamor教授这次报告主要介绍了在压力驱动下流体控制扩展的纳米通道(102纳米通道)上制作玻璃基板于2002年被证明,该设备是我们的实验室第一个纳米流体装置。为了扩展纳米流体之前,我们创新发展了我们原来电泳微流控芯片的方法,即微单元操作和有争议的化工流程处理能力,如免疫、细胞培养,提取。我们在制造和检测技术的进步,实现了射流装置技术在10~100nm大小之间的通道。
我们报道了一种复杂的微型纳米混合流体装置,其中太阳能光催化燃料有超过15个纳米单元的操作从水和燃料电池是完全集成的。因此,即使是一个复杂的多功能微/纳米混合化学系统也可以集成在一个玻璃微芯片上,这一成就表明未来的集成化学设备的可能性。
纳米流体可以改变化学分子,可在不久的将来实质性进行多加速了解化学、生物学、医学、材料科学及相关的其他科学。
在 Takehiko Kitamor教授报告现场,大家表现出极大的热情,对 Takehiko Kitamor教授的研究内容充满兴趣,并与 Takehiko Kitamor教授积极沟通交流,踊跃提问。教授对每个问题都做了详细解答。本次讲座生动有趣,有理有据,给我们现场每一位老师和同学都带来了灵感上的启发,也提高了我们的水平,开拓了我们的眼界。