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Near-IR Photoinduced Electrochemiluminescence Imaging with Structured Silicon Photoanodes.

Yiran ZhaoBorja SepúlvedaJulie DescampsFatoumata FayeMarcos DuqueJaume EsteveLionel SantinacciNeso SojicGabriel LogetYoan Léger
Published in: ACS applied materials & interfaces (2024)
Infrared (IR) imaging devices that convert IR irradiation (invisible to the human eye) to a visible signal are based on solid-state components. Here, we introduce an alternative concept based on light-addressable electrochemistry (i.e., electrochemistry spatially confined under the action of a light stimulus) that involves the use of a liquid electrolyte. In this method, the projection of a near-IR image (λ exc = 850 or 840 nm) onto a photoactive Si-based photoanode, immersed into a liquid phase, triggers locally the photoinduced electrochemiluminescence (PECL) of the efficient [Ru(bpy) 3 ] 2+ -TPrA system. This leads to the local conversion of near-IR light to visible (λ PECL = 632 nm) light. We demonstrate that compared to planar Si photoanodes, the use of a micropillar Si array leads to a large enhancement of local light generation and considerably improves the resolution of the PECL image by preventing photogenerated minority carriers from diffusing laterally. These results are important for the design of original light conversion devices and can lead to important applications in photothermal imaging and analytical chemistry.
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