Room temperature inductively coupled plasma etching of InP with Cl2 mixtures using SiO2 and photoresist masks

Li, Qingyue; Deeb, Claire; Debregeas, Hélène; Pelouard, Jean-Luc

doi:10.1116/6.0003295

Journal of Vacuum Science &Amp; Technology B

2024

DOI: 10.1116/6.0003295

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Room temperature inductively coupled plasma etching of InP with Cl2 mixtures using SiO2 and photoresist masks

Qingyue Li,

Claire Deeb,

Hélène Debregeas

et al.

Abstract: We report the results of a study on the inductively coupled plasma (ICP) etching of InP at room temperature using Cl2 mixtures (Cl2/N2/H2). The impact of different process parameters, including the RF power, the ICP power, the ion-to-neutral ratio, and the chamber pressure, on the etched profile was investigated. The etch rate, selectivity, and anisotropy of the profile were depicted for each etching recipe. Two types of masks, such as SiO2 and AZ5214 photoresist, were used in this study. The etched InP featur… Show more

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Process optimization of preparing CMOS backplane for ultrahigh pixel density red Micro-LED display

Wang,

Guo,

Zhou

et al. 2024

Eng. Res. Express

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In this paper, an AlGaInP-based red Micro-LED display measured 17.78 mm (0.7 in), with a resolution of 1920 x 1080, a light-emitting mesa size of 6 μm, a pixel pitch of 8 μm and a pixel density of 3175 PPI was designed and fabricated with a CMOS driver backplane. The metal bump preparation technology of the CMOS driver backplane was optimized to enhance the bonding yield and create an optimal display effect. Improper sizing of the etched window in the SiO2 insulation and passivation layer can have a detrimental impact on the metal bump preparation and subsequent bonding process. By optimizing the settings of lithography and dry etching, the appropriate size of the etched aperture in the passivation layer was achieved. The high density, small size, and large aspect ratio of the photoresist openings for the bump fabrication made it challenging to remove the photoresist following the metal evaporation. To successfully remove the photoresist, it is important to carefully choose suitable experimental conditions for the removal. Afterwards, an 8 μm AlGaInP-based red Micro-LED display was effectively integrated with CMOS using flip-chip bonding technology. This work may be of reference value to those who work on ultrahigh density red Micro-LEDs that is challenging but crucial for future full color micro displays.

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Process optimization of preparing CMOS backplane for ultrahigh pixel density red Micro-LED display

Wang,

Guo,

Zhou

et al. 2024

Eng. Res. Express

View full text Add to dashboard Cite

show abstract

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Room temperature inductively coupled plasma etching of InP with Cl2 mixtures using SiO2 and photoresist masks

Cited by 1 publication

References 19 publications

Process optimization of preparing CMOS backplane for ultrahigh pixel density red Micro-LED display

Process optimization of preparing CMOS backplane for ultrahigh pixel density red Micro-LED display

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