Physical Chemistry Seminar: Playing with molecular junctions – three tales from the south

Dr. Yonatan Dubi, Department of Chemistry, Ben-Gurion University of the Negev

14 April 2016, 16:00 
Shenkar Physics Building, Melamed Hall 006 
Chemical Physics Seminar

Abstract:

The ultimate goal of molecular electronics is to create technologies that will complement—and eventually supersede—Si-based microelectronics technologies. To reach this goal, the field of single-molecule electronics is aiming at recognizing and characterizing single-molecule devices that mimic at least some of the behaviors of today's semiconductor components. In this talk I will review three such single-molecule devices, all of which came out of an ongoing collaboration with the experimental group of Prof. B.-Q. Xu at the University of Georgia. The devices – negative differential conductance switches, DNA-based molecular rectifiers, and electro-optical (photo-conductance) switches – will be described both from the experimental and the theoretical sides, and the basic physical processes which are responsible for the device behavior will be elucidated.

 

References: 

  1. J. Zhou, S. Samanta, C. Guo, J. Locklinb and B. -Q. Xu, Measurements of contact specific low-bias negative differential resistance of single metalorganic molecular junctions, Nanoscale 5, 5715 (2013).

  2. Y. Dubi,  Dynamical coupling and negative differential resistance from interactions across the molecule-electrode interface in molecular junctions,  J. Chem. Phys. 139, 154710 (2013).

  3. B.-Q. Xu and Y. Dubi, invited review: Negative Differential Conductance in Molecular Junctions: An Overview of Experiment and Theory, J. Phys. Condensed Matter 27, 263202 (2015).

  4. C. Guo, K. Wang, E. Zerah-Harush, J. Hamill, B. Wang, Y. Dubi, B. Xu, Molecular rectifier composed of DNA with highrectification ratio enabled by intercalation, Nature Chemistry, doi:10.1038/nchem.2480 (AOP, 2016).

 

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