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Over 43%-power-efficiency GaInN-based photoelectric transducer on free-standing GaN substrate for optical wireless power transmission system

Takahiro Fujisawa, Nan Hu, Tomoki Kojima, Takashi Egawa, Makoto Miyoshi

2024Semiconductor Science and Technology10 citationsDOI

Abstract

Abstract We investigated the GaInN-based photoelectric transducers (PTs) aiming at the application to optical wireless power transmission systems. A PT device structure with Ga 0.9 In 0.1 N multiple-quantum-wells (MQWs) as a light absorption layer was grown on a free-standing GaN substrate by metalorganic chemical vapor deposition and subjected to the device fabrication. The PT performance was evaluated via the two-terminal current-density vs. voltage characteristics taken under a monochromatic light illumination. The fabricated PT devices exhibited a high open-circuit voltage of approximately 2.3 V and a high shunt resistance of 41 kΩcm 2 , thanks to its good material qualities. In addition, its surface reflection was markedly suppressed by an adoption of a wet surface treatment and an anti-reflection coating, resulting in a high external quantum efficiency of 90% and a high short-circuit current density of 1.4 mAcm −2 . Through the above investigation, a high power-conversion efficiency as great as 43.7% was achieved for the GaInN MQW PTs at a light illumination with 390 nm in wavelength and 5 mWcm −2 in optical power density.

Topics & Concepts

Photoelectric effectSubstrate (aquarium)OptoelectronicsTransmission (telecommunications)Optical wirelessMaterials sciencePower (physics)TransducerWirelessOptical powerPower transmissionElectrical engineeringTelecommunicationsPhysicsComputer scienceOpticsEngineeringGeologyLaserQuantum mechanicsOceanographyGaN-based semiconductor devices and materialsWireless Power Transfer SystemsNanowire Synthesis and Applications
Over 43%-power-efficiency GaInN-based photoelectric transducer on free-standing GaN substrate for optical wireless power transmission system | Litcius