Journal
IEEE ELECTRON DEVICE LETTERS
Volume 42, Issue 10, Pages 1504-1507Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/LED.2021.3108554
Keywords
Multi-color micro-LED array; bi-directional optogenetics; micropatterning of quantum dots
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Funding
- National Science Foundation [ECCS-1835268, ECCS-2046031, ECCS2055457]
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The study introduced a simple fabrication method for high-density, two-color quantum dot-based micro-LED arrays, which can be used for bi-directional optogenetics at the cellular level. The array featured small-sized light spots with high optical power density, along with low crosstalk and fast response.
Bi-directional optogenetics at single-cell level requires localized, bright, and multi-color light sources to activate both excitatory and inhibitory opsins. To this end, here we report a simple fabrication method of high-density, two-color, quantum dot (QD) based micron-sized light emitting diode (micro-LED) arrays. In particular, we micro-patterned InP/ZnS QDs on top of GaN-based micro-LED pixels via a simple brushing method, and coated them with a spectral filter. The resulting array featured sub-20 mu m sized light spots near both 462 nm and 623 nm, with their optical power density being ca. 0.1 - 1.0 mW/mm(2). Combined with its low crosstalk and fast response, our two-color QD-LED array may hold promise for bi-directional optogenetics ultimately at the cellular level.
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