Evolution of the Valley Position in Bulk Transition-Metal Chalcogenides and Their Monolayer Limit.

@article{Yuan2016EvolutionOT,
  title={Evolution of the Valley Position in Bulk Transition-Metal Chalcogenides and Their Monolayer Limit.},
  author={Hongtao Yuan and Zhongkai Liu and Gang Xu and Bo Zhou and Sanfeng Wu and Dumitru Dumcenco and Kai Yan and Yi Zhang and Sung-Kwan Mo and Pavel N. Dudin and Victor Kandyba and Mikhail Yablonskikh and Alexei Barinov and Zhixun Shen and Shoucheng Zhang and Yingsheng Huang and Xiaodong Xu and Zahid Hussain and Harold Y Hwang and Yi Cui and Yulin Chen},
  journal={Nano letters},
  year={2016},
  volume={16 8},
  pages={
          4738-45
        }
}
Layered transition metal chalcogenides with large spin orbit coupling have recently sparked much interest due to their potential applications for electronic, optoelectronic, spintronics, and valleytronics. However, most current understanding of the electronic structure near band valleys in momentum space is based on either theoretical investigations or optical measurements, leaving the detailed band structure elusive. For example, the exact position of the conduction band valley of bulk MoS2… CONTINUE READING
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