4月28日张杨报告
报告时间:4月28日 周五 下午3:00
报告地点:实验室一楼会议室
报告人:张杨副研究员(微尺度)
报告题目:Exploring single-molecule optoelectronics with scanning tunneling microscope induced luminescence technique
报告摘要:
The tunneling electrons in a scanning tunneling microscope (STM) can not only be used to image and manipulate surface nanostructures with atomic resolution, but also excite light emission from STM junctions by inelastic tunneling electrons. STM induced luminescence (STML) technique, combining the STM with optical detection, can do nano-imaging beyond diffraction limit, which provide photon images with spatial resolution down to sub-nanometer scale.
In this talk, I first present the realization of molecule-specific electroluminescence from a well-defined isolated single molecule and the sub-nanometer resolved spectroscopic imaging with STML. Then, with STM manipulation, artificial molecular structures can be constructed. I shall demonstrate the real-space visualization of coherent intermolecular dipole-dipole coupling for constructed molecular oligomers through molecular electroluminescence imaging. The spatial distributions of the excitonic coupling for different energy states indicate that the behavior of the coherent dipole-dipole coupling well resembles the σ and π orbitals in a molecule, revealing the local optical responses and their correlations with transition dipole orientations and phase relations. With the knowledge thus gained, electrically driven single photon superradiance from an entangled system of well-defined molecular oligomers is achieved. These results not only substantially deepen the understanding on and facilitate spectral assignments for the coherent excitonic coupling in molecular systems, but also enable to engineer electrically driven single-molecule superradiance and even quantum photon sources from entangled molecular architectures.编辑时间:2017-04-27 10:42:56