Monolithic image sensor and optoelectronics of monolayer.

POSTER

Abstract

Development of advanced optoelectronic devices for ultrahigh speed, low power consumption, and low cost image sensors are emergent applications of Internet of Things (IoT). To achieve ultrasensitive image sensors, high responsivity, fast response speed, and low power consumption are required. Monolayer transition metal dichalcogenides (TMD) crystals are potential candidates for high performance optoelectronic devices with high responsivity and low power consumption. Here, persistent photoconductivity (PPC) of the monolayer TMD are studied and improved. Monolithic image sensor and optoelectronic transport properties of the MoS 2 are demonstrated.

*The authors acknowledge support from AOARD grant (co-funded with ONRG) FA2386-16-1-4009, Ministry of Science and Technology (MoST-106-2119-M-007-023-MY3, MoST-105-2811-M-007-093, MoST-105-2112-M-007-032-MY3, MoST-105-2119-M-007-027, and MoST-105-2633-M-007-003)

Presenters

  • Chen Po-Han

    • National Tsing Hua University

Authors

  • Chen Po-Han

    • National Tsing Hua University

  • Chang-Ning Liao

    • National Tsing Hua University

  • Meng-Hsi Chuang

    • National Tsing Hua University
    • National Tsing-Hua University, National Tsing Hua University
    • Materials Science and Engineering, National Tsing Hua University

  • Kuan-Chang Chiu

    • National Tsing Hua University

  • Meng-Chyi Wu

    • National Tsing Hua University

  • Chih-Chao Yang

    • National Tsing Hua University

  • Yi-Hsien Lee

    • National Tsing Hua University
    • Materials Science and Engineering, National Tsing Hua University
    • National Tsing-Hua University