Efficient Electrical Control of Thin-Film Black Phosphorus Bandgap

Bingchen Deng; Vy Tran; Hao Jiang; Cheng Li; Yujun Xie; Qiushi Guo; Xiaomu Wang; He Tian; Han Wang; Judy Cha; Qiangfei Xia; Li Yang; Fengnian Xia

Efficient Electrical Control of Thin-Film Black Phosphorus Bandgap

ORAL

Abstract

Recently rediscovered black phosphorus is a promising layered material for electronics and photonics. Dynamic control of its bandgap is desirable to extend the black phosphorus device functionalities. Here we reveal the unique thickness-dependent bandgap tuning properties in intrinsic black phosphorus thin films under an external electric field. We demonstrate that for optimum black phosphorus thickness, the bandgap can be continuously tuned from about 300 to below 50 meV using a moderate electric field readily achieved by regular dielectrics. Such dynamic tuning of bandgap can enable novel device applications and allow for the exploration of new physical phenomena.

^*We thank the Office of Naval Research Young Investigator Program (N00014-15-1-2733) and National Science Foundation EFRI-2DARE program (EFMA-1542815) for the support of this work.

March 15, 2017, 9:00 AM – March 15, 2017, 9:12 AM

Authors

Bingchen Deng
- Yale Univ
Vy Tran
- Washington University
Hao Jiang
- University of Massachusetts
Cheng Li
- Yale Univ
Yujun Xie
- Yale Univ
Qiushi Guo
- Yale Univ
Xiaomu Wang
- Yale Univ
He Tian
- University of Southern California
Han Wang
- Univ of Southern California
- University of Southern California
Judy Cha
- Yale Univ
Qiangfei Xia
- University of Massachusetts
Li Yang
- Department of Physics and Institute of Materials Science and Engineering, Washington University, St. Louis, Missouri 63130, USA
- Washington University
Fengnian Xia
- Yale Univ