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
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.