光电子学
材料科学
阈值电压
MOSFET
晶体管
电介质
集成电路
亮度
量子效率
电气工程
功率半导体器件
电压
功率(物理)
电子工程
逻辑门
过程集成
宽禁带半导体
半导体器件
场效应晶体管
电流(流体)
功率MOSFET
二极管
计算机科学
集成电路设计
工程物理
作者
Yanzhen Yin,Byung‐Ryool Hyun,Zhaojun Liu
摘要
Low threshold voltage (VTH) is essential for monolithic integration of GaN-based Micro-LEDs with metal-oxide-semiconductor field-effect transistors (MOSFETs), enabling low-power, long-lifetime micro-displays. In this work, we achieve record-low VTH = −2.3 V in a monolithically integrated Micro-LED with a p-channel MOSFET (p-MOSFET), enabling efficient operation below 3 V. By reducing the gate dielectric thickness from 50 to 30 nm, VTH decreases from −9.2 to −2.3 V, in excellent agreement with simulation, while preserving a high on/off current ratio (>107). The integrated Micro-LED delivers a light output power of 155 μW, external quantum efficiency of 20.6%, and luminance of 2.8 M nits—matching standalone Micro-LED performance. These results establish a practical pathway toward low-voltage, high-performance monolithic active-matrix Micro-LEDs, paving the way for energy-efficient extended reality displays.
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