Tilt-induced charge localisation in phosphide antiperovskite photovoltaics

Ruiqi Wu, Alex M Ganose
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Abstract

Antiperovskites are a rich family of compounds with applications in battery cathodes, superconductors, solid-state lighting, and catalysis. Recently, a novel series of antimonide phosphide antiperovskites (A 3SbP, where A = Ca, Sr Ba) were proposed as candidate photovoltaic absorbers due to their ideal band gaps, small effective masses and strong optical absorption. In this work, we explore this series of compounds in more detail using relativistic hybrid density functional theory. We reveal that the proposed cubic structures are dynamically unstable and instead identify a tilted orthorhombic Pnma phase as the ground state. Tilting is shown to induce charge localisation that widens the band gap and increases the effective masses. Despite this, we demonstrate that the predicted maximum photovoltaic efficiencies remain high (24%–31% for 200 nm thin films) by bringing the band gaps into the ideal range for a solar absorber. Finally, we assess the band alignment of the series and suggest hole and electron contact materials for efficient photovoltaic devices.
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磷化反iperovskite 光伏中倾斜诱导的电荷定位
反掺杂磷酸盐是一个丰富的化合物家族,可应用于电池阴极、超导体、固态照明和催化等领域。最近,人们提出了一系列新型磷化锑系反穿晶石(A3SbP,其中 A = Ca、Sr Ba),由于它们具有理想的带隙、较小的有效质量和较强的光吸收能力,因此被认为是候选的光伏吸收体。在这项研究中,我们利用相对论混合密度泛函理论对这一系列化合物进行了更详细的探讨。我们发现所提出的立方结构在动力学上是不稳定的,并确定了倾斜正方 Pnma 相作为基态。研究表明,倾斜会引起电荷局域化,从而扩大带隙并增加有效质量。尽管如此,我们仍然证明,通过将带隙引入太阳能吸收器的理想范围,预测的最大光电效率仍然很高(200 nm 薄膜的光电效率为 24%-31%)。最后,我们评估了该系列的能带排列,并为高效光伏设备的空穴和电子接触材料提出了建议。
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