Omnidirectional and Highly Sensitive Microtubular Photodetectors Based on QD/2D Heterojunctions
Journal
ACS Applied Electronic Materials
Journal Volume
4
Journal Issue
11
Date Issued
2022-11-22
Author(s)
Ghosh, Rapti
Kang, Yi Sun
Yadav, Kanchan
Lin, Hung I.
Yen, Zhi Long
Lin, Hsia Yu
Lu, Guan Zhang
Sankar, Raman
Hsieh, Ya Ping
Abstract
Roll-up technology provides a feasible approach to transform patterned planar membranes into three-dimensional (3D) tubular microstructures. The tubular geometry enables the confinement of the local electromagnetic field and strengthens the photon-matter interaction inside the structure. By applying the roll-up method, we fabricated 3D tubular photodetectors from graphene/quantum dots (QDs) embedded polymer membranes around an optical fiber. These fabricated tubular photodetectors exhibit 5 times higher photoresponsivity compared to their planar counterparts. The enhanced responsivity is related to the light-trapping effect of the tubular structure as verified by the finite-difference time-domain (FDTD) simulation. 3D tubular photodetectors can detect photons accurately over a wide incidence angle (0-360°) without the responsivity decline. This unprecedented feature suppresses all published reports and lifts the restriction of the limited measured angle in conventional photodetectors. The omnidirectional and highly sensitive tubular QDs/2D-based devices, opening a route toward future optoelectronic devices from imaging to tracking solar cells.
Subjects
2D-0D | flexible | graphene | omnidirectional | photodetector | ReS QD 2 | tubular
SDGs
Type
journal article