Litcius/Paper detail

Significant reduction in sidewall damage related external quantum efficiency (EQE) drop in red InGaN microLEDs (∼625 nm at 1 A cm<sup>−2</sup>) with device sizes down to 3 μm

Surjava Sanyal, Qinchen Lin, Timothy K. Shih, Shijie Zhang, Guangying Wang, Swarnav Mukhopadhyay, Jonathan Vigen, Wentao Zhang, Shubhra S. Pasayat, Chirag Gupta

2024Japanese Journal of Applied Physics11 citationsDOIOpen Access PDF

Abstract

Abstract Ultra-small (10 μ m) InGaN-based red microLEDs (625 nm at 1 A cm −2 ) are necessary for modern displays. However, an increase in surface-area-to-volume ratio with a decrease in the micro-LED size resulting in higher surface recombination causes a drop in efficiency with device size. In this letter, we demonstrate microLEDs from 60 μ m down to 3 μ m with significantly reduced sidewall-related efficiency reduction using a two-step passivation technique using Al 2 O 3 and Si 3 N 4 . The peak on-wafer EQE changes from 0.21% to 0.35% as the device size reduces from 60 to 3 μ m, possibly due to improved light extraction efficiency for smaller mesa-widths.

Topics & Concepts

Quantum efficiencyOptoelectronicsDrop (telecommunication)Materials scienceReduction (mathematics)QuantumPhysicsTelecommunicationsComputer scienceQuantum mechanicsGeometryMathematicsGaN-based semiconductor devices and materialsSemiconductor materials and devicesGa2O3 and related materials
Significant reduction in sidewall damage related external quantum efficiency (EQE) drop in red InGaN microLEDs (∼625 nm at 1 A cm<sup>−2</sup>) with device sizes down to 3 μm | Litcius