Electrical contacts to two dimensional semiconductors

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Electrical contacts to two dimensional semiconductors Wenjin Zhao, Tauno Palomaki, Joe Finney, Zaiyao Fei, Paul Nguyen, Frank McKay, David H. Cobden Nanodevice Physics Lab, Department of Physics, University of Washington, Seattle WA 98195-1560 2D materials: graphene, h-BN and WSe2 WSe2 and MoSe2 hererojunction Triangular monolayer crystals containing lateral heterojunctions between monolayer MoSe2 and WSe2 grown by physical vapor transport on SiO2 WSe2 monolayer The development of atomically thin layers of van der Waals bonded solids has opened up new possibilities for the exploration of 2D physics as well as for materials for applications. There are semimetals, insulators and semiconductors among them. Combining them into heterostructures offers a new route to efficient, stable and flexible solar cells. Below are the structures of graphene, hexagonal boron nitride (h-BN) and tungsten diselenide (WSe2). WSe2 MoSe2 WSe2 MoSe2 Lattice-perfect 2D heterojunction within a monolayer, analogous to a 3D semiconductor heterojunction HRTEM image by Ana Sanchez and Richard Beanland, University of Warwick Simplified band structure indicating circularly polarized selection rules. Photolumi-nescence is enhanced at junction Insulator Structure of h-BN, with B in blue and N in pink Semiconductor Structure of WSe2, with W in blue and Se in yellow Semimetal Structure of graphene, a lattice of carbon atoms Reference: “​Lateral heterojunctions within monolayer semiconductors", C. Huang, S. Wu, A.M. Sanchez, J.J.P. Peters, R. Beanland, J.S. Ross, P. Rivera, W. Yao, D.H. Cobden, and X. Xu. Nature Materials (2014). Reference: "Electrical tuning of valley magnetic moment via symmetry control", S. Wu, J.S. Ross, G.-B. Liu, G. Aivazian, A.M. Jones, Z. Fei, W. Zhu, D. Xiao, W. Yao, D.H. Cobden,and X. Xu, Nature Physics 9, 149 (2013) Device fabrication Transport measurements To study the electrical contacts on WSe2, we exfoliate graphene, h-BN and WSe2 on SiO2. Then we use the “dry transfer technique” to pick top h-BN and two few-layer-graphene flakes. Then we pick up WSe2 and the middle h-BN. Finally we pick up two contact gates and the bottom h-BN. We then melt the stack down onto a gold contact pattern. The result is an encapsulated bilayer WSe2 split-contact-gate device. A good two dimentional semiconductor solar cell requires low contact resistance. The measured resistance is the sum of contact resistance and channel resistance. We can control and measure the two resistances separately using the multiple gates. Channel is off h-BN Gr contact Gr contact gate WSe2 Au back gate SiO2/Si CG Contacts are off Contact gate voltage(V) Contact gate voltage(V) Log(conductance)(μS) Log(conductance)(μS) BG Future TG Contacts are off Contact CG Back gate voltage(V) Back gate voltage(V) Contact Channel is off T=300 K Side view of the device Picture of the device Technique: Dean, C. R. et al., Nature 497, 598–602 (2013)