Abstract
A hierarchical transparent back contact leveraging an AlGaOx passivating layer, Ti3C2Tx MXene with a high work function, and a transparent cracked film lithography (CFL) templated nanogrid is demonstrated on copper-free cadmium telluride (CdTe) devices. AlGaOx improves device open-circuit voltage but reduces the fill factor when using a CFL-templated metal contact. Including a Ti3C2Tx interlayer improves the fill factor, lowers detrimental Schottky barriers, and enables metallization with CFL by providing transverse conduction into the nanogrid. The bifacial performance of an AlGaOx/Ti3C2Tx/CFL gold contact is evaluated, reaching 19.5% frontside efficiency and 2.8% backside efficiency under 1-sun illumination for a copper-free, group-V doped CdTe device. Under dual illumination, device power generation reached 200 W/m2 with 0.1 sun backside illumination.
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CITATION STYLE
Sartor, B. E., Zhang, T., Muzzillo, C. P., Lee, C., Muzzio, R., Gogotsi, Y., … Taylor, A. D. (2024). Hierarchical Transparent Back Contacts for Bifacial CdTe PV. ACS Energy Letters, 9(4), 1617–1623. https://doi.org/10.1021/acsenergylett.4c00156
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