Size-dependent capacitance study on InGaN-based micro-light-emitting diodes

Wei Yang; Shuailong Zhang; Jonathan J.D. McKendry; Johannes Herrnsdorf; Pengfei Tian; Zheng Gong; Qingbin Ji; Ian M. Watson; Erdan Gu; Martin D. Dawson; Liefeng Feng; Cunda Wang; Xiaodong Hu

doi:10.1063/1.4891233

Size-dependent capacitance study on InGaN-based micro-light-emitting diodes

Wei Yang, Shuailong Zhang, Jonathan J.D. McKendry, Johannes Herrnsdorf, Pengfei Tian, Zheng Gong, Qingbin Ji, Ian M. Watson, Erdan Gu, Martin D. Dawson, Liefeng Feng, Cunda Wang, Xiaodong Hu

Research output: Contribution to journal › Article › peer-review

51 Citations (Scopus)

Abstract

We report a detailed study on size-dependent capacitance, especially the negative capacitance (NC), in InGaN-based micro-pixelated light-emitting diodes (μLEDs). Similar to conventional broad-area LEDs, μLEDs show NC under large forward bias. In the conventional depletion and diffusion capacitance regimes, a good linear relationship of capacitance with device size is observed. However, the NC under high forward bias shows slight deviation from above-mentioned linear relationship with device size. This behaviour can be understood if the effects of current density and junction temperature on NC are considered. The measured temperature dependence and frequency dispersion of the capacitance underpin this point of view. The NCs of two reference broad-area LEDs were also measured and compared with that of μLED clusters with the same total size. A stronger NC effect is observed in the μLED clusters, which is attributed to the increased number of sidewall defects during fabrication process.

Original language	English
Article number	044512
Journal	Journal of Applied Physics
Volume	116
Issue number	4
DOIs	https://doi.org/10.1063/1.4891233
Publication status	Published - 28 Jul 2014
Externally published	Yes

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title = "Size-dependent capacitance study on InGaN-based micro-light-emitting diodes",

abstract = "We report a detailed study on size-dependent capacitance, especially the negative capacitance (NC), in InGaN-based micro-pixelated light-emitting diodes (μLEDs). Similar to conventional broad-area LEDs, μLEDs show NC under large forward bias. In the conventional depletion and diffusion capacitance regimes, a good linear relationship of capacitance with device size is observed. However, the NC under high forward bias shows slight deviation from above-mentioned linear relationship with device size. This behaviour can be understood if the effects of current density and junction temperature on NC are considered. The measured temperature dependence and frequency dispersion of the capacitance underpin this point of view. The NCs of two reference broad-area LEDs were also measured and compared with that of μLED clusters with the same total size. A stronger NC effect is observed in the μLED clusters, which is attributed to the increased number of sidewall defects during fabrication process.",

author = "Wei Yang and Shuailong Zhang and McKendry, {Jonathan J.D.} and Johannes Herrnsdorf and Pengfei Tian and Zheng Gong and Qingbin Ji and Watson, {Ian M.} and Erdan Gu and Dawson, {Martin D.} and Liefeng Feng and Cunda Wang and Xiaodong Hu",

year = "2014",

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day = "28",

doi = "10.1063/1.4891233",

language = "English",

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T1 - Size-dependent capacitance study on InGaN-based micro-light-emitting diodes

AU - Yang, Wei

AU - Zhang, Shuailong

AU - McKendry, Jonathan J.D.

AU - Herrnsdorf, Johannes

AU - Tian, Pengfei

AU - Gong, Zheng

AU - Ji, Qingbin

AU - Watson, Ian M.

AU - Gu, Erdan

AU - Dawson, Martin D.

AU - Feng, Liefeng

AU - Wang, Cunda

AU - Hu, Xiaodong

PY - 2014/7/28

Y1 - 2014/7/28

N2 - We report a detailed study on size-dependent capacitance, especially the negative capacitance (NC), in InGaN-based micro-pixelated light-emitting diodes (μLEDs). Similar to conventional broad-area LEDs, μLEDs show NC under large forward bias. In the conventional depletion and diffusion capacitance regimes, a good linear relationship of capacitance with device size is observed. However, the NC under high forward bias shows slight deviation from above-mentioned linear relationship with device size. This behaviour can be understood if the effects of current density and junction temperature on NC are considered. The measured temperature dependence and frequency dispersion of the capacitance underpin this point of view. The NCs of two reference broad-area LEDs were also measured and compared with that of μLED clusters with the same total size. A stronger NC effect is observed in the μLED clusters, which is attributed to the increased number of sidewall defects during fabrication process.

AB - We report a detailed study on size-dependent capacitance, especially the negative capacitance (NC), in InGaN-based micro-pixelated light-emitting diodes (μLEDs). Similar to conventional broad-area LEDs, μLEDs show NC under large forward bias. In the conventional depletion and diffusion capacitance regimes, a good linear relationship of capacitance with device size is observed. However, the NC under high forward bias shows slight deviation from above-mentioned linear relationship with device size. This behaviour can be understood if the effects of current density and junction temperature on NC are considered. The measured temperature dependence and frequency dispersion of the capacitance underpin this point of view. The NCs of two reference broad-area LEDs were also measured and compared with that of μLED clusters with the same total size. A stronger NC effect is observed in the μLED clusters, which is attributed to the increased number of sidewall defects during fabrication process.

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DO - 10.1063/1.4891233

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VL - 116

JO - Journal of Applied Physics

JF - Journal of Applied Physics

IS - 4

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ER -

Size-dependent capacitance study on InGaN-based micro-light-emitting diodes

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