Your search keyword '"Black phosphorus quantum dots"' showing total 2 results

1. Light response and adsorption interaction of black phosphorus quantum dots and single-layer graphene phototransistor

Author

Qi Han, Yadong Jiang, Xianchao Liu, Chaoyi Zhang, and Jun Wang

Subjects

Black phosphorus quantum dots, Dirac point, Photoconduction, Adsoprtion, Applied optics. Photonics, TA1501-1820

Abstract

Abstract Black phosphorus quantum dots (BPQDs) are synthesized and combined with graphene sheet. The fabricated BPQDs/graphene devices are capable of detecting visible and near infrared radiation. The adsorption effect of BPQDs in graphene is clarified by the relationship of the photocurrent and the shift of the Dirac point with different substrate. The Dirac point moves toward a neutral point under illumination with both SiO2/Si and Si3N4/Si substrates, indicating an anti-doped feature of photo-excitation. To our knowledge, this provides the first observation of photoresist induced photocurrent in such systems. Without the influence of the photoresist the device can respond to infrared light up to 980 nm wavelength in vacuum in a cryostat, in which the photocurrent is positive and photoconduction effect is believed to dominate the photocurrent. Finally, the adsorption effect is modeled using a first-principle method to give a picture of charge transfer and orbital contribution in the interaction of phosphorus atoms and single-layer graphene. Graphical Abstract

Published

2023

2. Light response and adsorption interaction of black phosphorus quantum dots and single-layer graphene phototransistor.

Author

Han, Qi, Jiang, Yadong, Liu, Xianchao, Zhang, Chaoyi, and Wang, Jun

Abstract

Black phosphorus quantum dots (BPQDs) are synthesized and combined with graphene sheet. The fabricated BPQDs/graphene devices are capable of detecting visible and near infrared radiation. The adsorption effect of BPQDs in graphene is clarified by the relationship of the photocurrent and the shift of the Dirac point with different substrate. The Dirac point moves toward a neutral point under illumination with both SiO2/Si and Si3N4/Si substrates, indicating an anti-doped feature of photo-excitation. To our knowledge, this provides the first observation of photoresist induced photocurrent in such systems. Without the influence of the photoresist the device can respond to infrared light up to 980 nm wavelength in vacuum in a cryostat, in which the photocurrent is positive and photoconduction effect is believed to dominate the photocurrent. Finally, the adsorption effect is modeled using a first-principle method to give a picture of charge transfer and orbital contribution in the interaction of phosphorus atoms and single-layer graphene. [ABSTRACT FROM AUTHOR]

Published

2023