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Main Authors: Baker, Ruairi, Pervez, Maria, Hawkey, Angus, Sakai, Nobuya, Berryman-Bousquet, Valerie, Wenger, Bernard
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2511.22182
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author Baker, Ruairi
Pervez, Maria
Hawkey, Angus
Sakai, Nobuya
Berryman-Bousquet, Valerie
Wenger, Bernard
author_facet Baker, Ruairi
Pervez, Maria
Hawkey, Angus
Sakai, Nobuya
Berryman-Bousquet, Valerie
Wenger, Bernard
contents Colour conversion offers the clearest path to achieve RGB colours in high resolution microdisplays for AR/VR. With resolutions beyond 5000 ppi (i.e. RGB pitch of 5 um), the thickness of the conversion layers is critical for efficiency and manufacturing. Perovskites outperform other conversion materials (quantum dots or phosphors) with their high absorption coefficients for blue light. In this contribution, we show how perovskite materials, engineered for high optical density and colour purity, can be patterned to produce colour converting pixels. We demonstrate patterning using three approaches (lift-off, negative photoresist and dry etch), and discuss their advantages and disadvantages. The results consolidate the choice of perovskites for AR/VR applications by demonstrating their robustness and compatibility with multiple patterning strategies suitable for high resolution microdisplays.
format Preprint
id arxiv_https___arxiv_org_abs_2511_22182
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Patterning perovskite colour converters for AR/VR microdisplays
Baker, Ruairi
Pervez, Maria
Hawkey, Angus
Sakai, Nobuya
Berryman-Bousquet, Valerie
Wenger, Bernard
Materials Science
Colour conversion offers the clearest path to achieve RGB colours in high resolution microdisplays for AR/VR. With resolutions beyond 5000 ppi (i.e. RGB pitch of 5 um), the thickness of the conversion layers is critical for efficiency and manufacturing. Perovskites outperform other conversion materials (quantum dots or phosphors) with their high absorption coefficients for blue light. In this contribution, we show how perovskite materials, engineered for high optical density and colour purity, can be patterned to produce colour converting pixels. We demonstrate patterning using three approaches (lift-off, negative photoresist and dry etch), and discuss their advantages and disadvantages. The results consolidate the choice of perovskites for AR/VR applications by demonstrating their robustness and compatibility with multiple patterning strategies suitable for high resolution microdisplays.
title Patterning perovskite colour converters for AR/VR microdisplays
topic Materials Science
url https://arxiv.org/abs/2511.22182