高失配ZnTe1−xOx合金中cl掺杂中间带太阳能电池

T. Tanaka, S. Tsutsumi, Y. Okano, K. Saito, Q. Guo, M. Nishio, K. Yu, W. Walukiewicz
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引用次数: 1

摘要

本文报道了以ZnCl2为掺杂源,通过分子束外延生长在ZnTe衬底上的高度不匹配的ZnTeO合金中,cl掺杂的影响,以便将电子引入ZnTeO的中间带,而中间带太阳能电池需要半填充电子才能有效运行。ZnCl2电池温度在70 ~ 250℃之间变化。为了准确表征ZnTeO的光致发光(PL)特性,首先通过光反射率测量确定了ZnTeO E+和E-带隙能的温度依赖性。发现带隙能量的变化与禁带模型所期望的一致。在低温PL光谱中,发现了供体-受体对发射,表明形成了cl相关的供体。
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Cl-doping in highly mismatched ZnTe1−xOx alloys for intermediate band solar cells
We report the effect of Cl-doping in highly mismatched ZnTeO alloys grown on ZnTe substrate by molecular beam epitaxy using ZnCl2 as a dopant source in order to introduce electrons into the intermediate band of ZnTeO that is required to be half-filled with electrons for the efficient operation of an intermediate band solar cell. The ZnCl2 cell temperature was varied between 70 and 250 °C. In order to characterize the photoluminescence (PL) properties exactly, the temperature dependence of band gap energies for E+ and E- bands of ZnTeO was first determined by photoreflectance measurements. Changes in band gap energies were found to be in accordance with those expected by the band anticrossing model. In the low temperature PL spectra, a donor-acceptor pair emission was found, indicating the formation of Cl-related donors.
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