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Group Ⅲ-Nitride Alloys as Photovoltaic Materials

机译:Ⅲ族氮化物光伏材料

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摘要

The direct gap of the In_(1-x)Ga_xN alloy system extends continuously from InN (0.7 eV, in the near IR) to GaN (3.4 eV, in the mid-ultraviolet). This opens the intriguing possibility of using this single ternary alloy system in single or multi-junction (MJ) solar cells. A number of measurements of the intrinsic properties of InN and In-rich In_(1-x)Ga_xN alloys (0 < x < 0.63) are presented and discussed here. To evaluate the suitability of In_(1-x)Ga_xN as a material for space applications, extensive radiation damage testing with electron, proton, and alpha particle radiation has been performed. Using the room temperature photoluminescence intensity as a indirect measure of minority carrier lifetime, it is shown that In_(1-x)Ga_xN retains its optoelectronic properties at radiation damage doses at least 2 orders of magnitude higher than the damage thresholds of the materials (GaAs and GaInP) currently used in high efficiency MJ cells. Results are evaluated in terms of the positions of the valence and conduction band edges with respect to the average energy level of broken-bond defects (Fermi level stabilization energy E_(FS)). Measurements of the surface electron concentration as a function of x are also discussed in terms of the relative position of E_(FS). The main outstanding challenges in the photovoltaic applications of In_(1-x)Ga_xN alloys, which include developing methods to achieve p-type doping and improving the structural quality of heteroepitaxial films, are also discussed.
机译:In_(1-x)Ga_xN合金系统的直接间隙从InN(在近红外区为0.7 eV)连续​​延伸到GaN(在中紫外区为3.4 eV)。这为在单结或多结(MJ)太阳能电池中使用这种单三元合金系统提供了有趣的可能性。本文介绍并讨论了InN和富In_(1-x)Ga_xN合金(0

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