All-inorganic halide-perovskite polymer-fiber-photodetector for high-speed optical wireless communication

Author:

Kang Chun Hong1ORCID,Alkhazragi Omar1ORCID,Sinatra Lutfan2,Alshaibani Sultan1,Wang Yue1,Li Kuang-Hui1,Kong Meiwei1,Lutfullin Marat2,Bakr Osman M.1,Ng Tien Khee1ORCID,Ooi Boon S.1ORCID

Affiliation:

1. King Abdullah University of Science and Technology (KAUST)

2. Quantum Solutions

Abstract

The use of optical carrier frequencies will enable seamless data connection for future terrestrial and underwater internet uses and will resolve the technological gap faced by other communication modalities. However, several issues must be solved to propel this technological shift, which include the limitations in designing optical receivers with large detection areas, omnidirectionality, and high modulation bandwidth, mimicking antennas operating in the radio-frequency spectrum. To address this technological gap, herein, we demonstrate halide-perovskite-polymer–based scintillating fibers as a near-omnidirectional detection platform for several tens-to-hundreds of Mbit/s optical communication in both free space and underwater links. The incorporation of all-inorganic CsPbBr3 nanocrystals by engineering the nanocrystal concentration in an ultraviolet-curable polymer matrix ensures a high photoluminescence quantum yield, Mega-Hertz modulation bandwidth and Mbit/s data rate suitable to be used as a high-speed fibers-based receiver. The resultant perovskite polymer-based scintillating fibers offer flexibility in terms of shape and near-omnidirectional detection features. Such fiber properties also introduce a scalable detection area which can resolve the resistance-capacitance and angle-of-acceptance limits in planar-based detectors, which conventionally impose a trade-off between the modulation bandwidth, detection area, and angle of view. A high bit rate of 23 Mbit/s and 152.5 Mbit/s was achieved using an intensity-modulated laser for non-return-to-zero on-off-keying (NRZ-OOK) modulation scheme in free-space and quadrature amplitude modulation orthogonal frequency-division multiplexing (QAM-OFDM) modulation scheme in an underwater environment, respectively. Our near-omnidirectional optical-based antenna based on perovskite-polymer-based scintillating fibers sheds light on the immense possibilities of incorporating functional nanomaterials for empowering light-based terrestrial- and underwater-internet systems.

Funder

Office of Naval Research Global

King Abdullah University of Science and Technology

King Abdulaziz City for Science and Technology

Publisher

Optica Publishing Group

Subject

Atomic and Molecular Physics, and Optics

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