Enhanced performance of high Al-content AlGaN MSM photodetectors by electrode modification using hexadecanethiol

A metal electrode modification process for AlGaN-based metal-semiconductor-metal (MSM) photodetectors have been introduced to enhance the response of solar-blind ultraviolet (UV) light detection. The hexadecanethiol organic molecules are chemically adsorbed on the electrodes of high-Al-content Al0.6Ga0.4N MSM solar-blind UV photodetectors, which can reduce the work function of the metal electrode and change the height of the Schottky barrier. This modification process significantly increases the photocurrent and responsivity of the device compared with the referential photodetector without modification. Additionally, the adverse effects caused by the surface state and polarization of the AlGaN materials are effectively reduced, which can be beneficial for improving the electrical performances of III-nitride-based UV photodetectors. (c) 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

Automated summary

A metal electrode modification process has been introduced for AlGaN-based MSM photodetectors to enhance the response of solar-blind UV light detection. The modification significantly increases the photocurrent and responsivity of the device by reducing the work function of the metal electrode and changing the height of the Schottky barrier. Moreover, adverse effects caused by surface state and polarization of AlGaN materials are effectively reduced, benefiting the improvement of electrical performances of III-nitride-based UV photodetectors.