Enhanced photogating via pyroelectric effect induced by insulator layer for high-responsivity long-wavelength infrared graphene-based photodetectors operating at room temperature.

MLA

Masaaki Shimatani, et al. “Enhanced Photogating via Pyroelectric Effect Induced by Insulator Layer for High-Responsivity Long-Wavelength Infrared Graphene-Based Photodetectors Operating at Room Temperature.” Applied Physics Express, vol. 12, no. 2, Feb. 2019, p. 1. EBSCOhost, https://doi.org/10.7567/1882-0786/aaf90a.

APA

Masaaki Shimatani, Shinpei Ogawa, Shoichiro Fukushima, Satoshi Okuda, Yasushi Kanai, Takao Ono, & Kazuhiko Matsumoto. (2019). Enhanced photogating via pyroelectric effect induced by insulator layer for high-responsivity long-wavelength infrared graphene-based photodetectors operating at room temperature. Applied Physics Express, 12(2), 1. https://doi.org/10.7567/1882-0786/aaf90a

Chicago

Masaaki Shimatani, Shinpei Ogawa, Shoichiro Fukushima, Satoshi Okuda, Yasushi Kanai, Takao Ono, and Kazuhiko Matsumoto. 2019. “Enhanced Photogating via Pyroelectric Effect Induced by Insulator Layer for High-Responsivity Long-Wavelength Infrared Graphene-Based Photodetectors Operating at Room Temperature.” Applied Physics Express 12 (2): 1. doi:10.7567/1882-0786/aaf90a.