High-Bandwidth Flexible White Light System for Visible Light Communication

Konthoujam James Singh; Chang Ching Tu; Yu Ming Huang; Hao Chung Kuo

High-Bandwidth Flexible White Light System for Visible Light Communication

Konthoujam James Singh, Chang Ching Tu, Yu Ming Huang, Hao Chung Kuo

Department of Electrical Engineering

Research output: Contribution to journal › Conference article › peer-review

Abstract

In this study, we propose a flexible white-light system consisting of blue InGaN/GaN single-quantum-well micro-LEDs on a flexible substrate pumping CsPbBr3 perovskite QD (PQD) paper in nanostructure form and CdSe QD paper for high-speed VLC. The micro-LED and PQD paper achieved a maximum bandwidth of 817 MHz and 229 MHz respectively. The white-light system reached a maximum bandwidth of 95.5 MHz and transmission rate of 150 Mbps.

Original language	English
Pages (from-to)	952-954
Number of pages	3
Journal	Proceedings of the International Display Workshops
Volume	29
State	Published - 2022
Event	29th International Display Workshops, IDW 2022 - Fukuoka, Japan Duration: 14 Dec 2022 → 16 Dec 2022

Keywords

Micro-LEDs
perovskite
quantum dots
Visible Light Communication

Cite this

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title = "High-Bandwidth Flexible White Light System for Visible Light Communication",

abstract = "In this study, we propose a flexible white-light system consisting of blue InGaN/GaN single-quantum-well micro-LEDs on a flexible substrate pumping CsPbBr3 perovskite QD (PQD) paper in nanostructure form and CdSe QD paper for high-speed VLC. The micro-LED and PQD paper achieved a maximum bandwidth of 817 MHz and 229 MHz respectively. The white-light system reached a maximum bandwidth of 95.5 MHz and transmission rate of 150 Mbps.",

keywords = "Micro-LEDs, perovskite, quantum dots, Visible Light Communication",

author = "Singh, {Konthoujam James} and Tu, {Chang Ching} and Huang, {Yu Ming} and Kuo, {Hao Chung}",

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AU - Singh, Konthoujam James

AU - Tu, Chang Ching

AU - Huang, Yu Ming

AU - Kuo, Hao Chung

PY - 2022

Y1 - 2022

N2 - In this study, we propose a flexible white-light system consisting of blue InGaN/GaN single-quantum-well micro-LEDs on a flexible substrate pumping CsPbBr3 perovskite QD (PQD) paper in nanostructure form and CdSe QD paper for high-speed VLC. The micro-LED and PQD paper achieved a maximum bandwidth of 817 MHz and 229 MHz respectively. The white-light system reached a maximum bandwidth of 95.5 MHz and transmission rate of 150 Mbps.

AB - In this study, we propose a flexible white-light system consisting of blue InGaN/GaN single-quantum-well micro-LEDs on a flexible substrate pumping CsPbBr3 perovskite QD (PQD) paper in nanostructure form and CdSe QD paper for high-speed VLC. The micro-LED and PQD paper achieved a maximum bandwidth of 817 MHz and 229 MHz respectively. The white-light system reached a maximum bandwidth of 95.5 MHz and transmission rate of 150 Mbps.

KW - Micro-LEDs

KW - perovskite

KW - quantum dots

KW - Visible Light Communication

UR - http://www.scopus.com/inward/record.url?scp=85175260319&partnerID=8YFLogxK

M3 - 會議論文

AN - SCOPUS:85175260319

SN - 1883-2490

VL - 29

SP - 952

EP - 954

JO - Proceedings of the International Display Workshops

JF - Proceedings of the International Display Workshops

T2 - 29th International Display Workshops, IDW 2022

Y2 - 14 December 2022 through 16 December 2022

ER -

High-Bandwidth Flexible White Light System for Visible Light Communication

Abstract

Keywords

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