Surface and Bulk Effects of K in Cu$_{1-x}$K$_x$In$_{1-y}$Ga$_y$Se$_2$ Solar Cells
Christopher P. Muzzillo, Timothy J. Anderson

TL;DR
This study investigates how surface and bulk potassium modifications in CuInGaSe2 solar cells affect their photovoltaic performance, revealing that surface KIn1-yGaySe2 improves efficiency primarily through surface passivation, while bulk K incorporation enhances overall device metrics.
Contribution
It demonstrates for the first time the growth of KIn1-yGaySe2 alloys and compares the effects of surface versus bulk K incorporation on solar cell performance.
Findings
Surface KIn1-yGaySe2 passivates the absorber surface, improving efficiency.
Bulk Cu1-xKxIn1-yGaySe2 with x ~ 0.07 enhances device performance.
Surface modifications outperform bulk modifications in unbuffered devices.
Abstract
Two strategies for enhancing photovoltaic (PV) performance in chalcopyrite solar cells were investigated: Cu1-xKxIn1-yGaySe2 absorbers with low K content (K/(K+Cu), or x ~ 0.07) distributed throughout the bulk, and CuIn1-yGaySe2 absorbers with KIn1-yGaySe2 grown on their surfaces. For the Ga-free case, increased temperature improved PV performance in the KInSe2 surface absorbers, but not in the bulk x ~ 0.07 absorbers. Growth temperature also increased KInSe2 phase fraction, relative to Cu1-xKxInSe2 alloys-evidence that surface KInSe2 improved performance more than bulk KInSe2. Surface KIn1-yGaySe2 and bulk x ~ 0.07 Cu1-xKxIn1-yGaySe2 films with Ga/(Ga+In), or y of 0.3 and 0.5 also had improved efficiency, open-circuit voltage (VOC), and fill factor (FF), relative to CuIn1-yGaySe2 baselines. On the other hand, y ~ 1 absorbers did not benefit from K introduction. Similar to Cu1-xKxInSe2,…
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Taxonomy
TopicsChalcogenide Semiconductor Thin Films · Quantum Dots Synthesis And Properties · Semiconductor materials and interfaces
