yl23455永利官网名师名家讲坛
报告题目:Using Coherence to Enhance Function in Chemical and Biophysical Systems
报 告 人:Prof. Gregory D. Scholes (Princeton University, USA)
报告时间:2016年12月1日(星期四)上午10: 00
报告地点:yl23455永利官网新校区物理与电子学院多功能报告厅(116室)
联 系 人:何军(junhe@csu.edu.cn)
报告摘要:
Coherence phenomena arise from interference, or the addition, of wave-like amplitudes in phase. While coherence has been shown to yield transformative new ways for improving function, advances have been limited to pristine matter, as quantum coherence is considered fragile. Recent evidence of coherence in chemical and biological systems, however, concludes that the phenomena is robust and can survive in the face of disorder and noise. I will present the state of recent discoveries. For example, two-dimensional electronic spectroscopy data allow quantitative analysis of vibronic coherence in the photosynthetic light harvesting complexes. I will show how vibronic coherence plays a special role in downhill energy transfer, increasing energy transfer rates remarkably—even when electronic coupling is weak. How coherence is manifest as ultrafast long range energy transfer in multiphase perovskites will be reported. I will conclude with a forecast for the role of function as a design element in realizing coherence.
Scholes教授简介:
美国普林斯顿大学教授,加拿大皇家科学院院士、J. Phys. Chem. Lett.期刊执行主编、能源技术计划CIFAR生物学高级研究员,1990年获墨尔本大学化学学士学位,1994年获墨尔本大学物理化学博士学位。先后在英国皇家学院和加州大学伯克利分校从事博士后研究,2000年起任职加拿大多伦多大学助理教授、副教授、教授。2011-2012年担任多伦多大学量子信息与量子控制中心主任。2014年起担任普林斯顿大学William S. Tod Professor。获得英国皇家化学会Bourke奖、NSERC John C. Polanyi 奖等奖项。在Science, Nature, Nature Materials, Nature Chemistry, Annu. Rev. Phys.Chem.等期刊发表多篇学术论文,目前已被引用超过11600次,H因子56,2篇引用超千次,2010年发表在Nature的论文成为25篇引用最多的论文之一。 相关研究成果被New Scientist(2010, 2011),Wired(2010, 2011),Science News (2010, 2011),Nature (2011), Focus (2012), Cosmos (2014), national radio(e.g. CBC Quirks and Quarks and BBC Science in Action), and television documentaries such as Invisible Nature (Discovery Channel) 亮点报道。