Epitaxial growth and layer transfer of InP via electrochemically etching / annealing of porous buried InP layers: A pathway for III–V substrate re-use

2015 IEEE 42nd Photovoltaic Specialist Conference (PVSC) Pub Date : 2015-06-14 DOI:10.1109/PVSC.2015.7356347

X. Kou, M. Goorsky

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Abstract

High crystalline quality InP is epitaxially grown on porous InP layers and characterized. Etching the wafers in hydrochloric acid with different concentrations and current densities create a dual layer porous structure with a more dense top layer for epitaxial growth and a buried porous layer. Annealing the structure forms voids in the buried layer. Epitaxial layers with thickness of about 2 μm were grown on dense layers. The layers grown were analyzed by transmission electron microscopy and high resolution x-ray diffraction and determined to be high quality single crystal layers. The porous samples created were bonded to PDMS substrates and the top layer was easily peeled off due to fracture through the high porosity layer. Layer transfer was also performed by gluing the samples to glass slides and pulling them apart. The transferred layers were characterized by scanning electron microscopy. These results point to the usefulness of porous III-V layers as templates for epitaxial growth and device transfer for solar cell applications.

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通过电化学蚀刻/退火的多孔埋藏InP层的外延生长和层转移:III-V衬底再利用的途径

高结晶质量的InP外延生长在多孔InP层和表征。在不同浓度和电流密度的盐酸中蚀刻晶圆可形成双层多孔结构，其中用于外延生长的更致密的顶层和埋藏的多孔层。退火后的结构在埋层中形成孔洞。在致密层上生长出厚度约为2 μm的外延层。通过透射电子显微镜和高分辨率x射线衍射对生长层进行分析，确定为高质量的单晶层。制备的多孔样品粘附在PDMS衬底上，由于高孔隙率层的断裂，顶层很容易脱落。通过将样品粘到玻片上并将其拉开，也进行了层转移。用扫描电镜对转移层进行了表征。这些结果表明多孔III-V层作为太阳能电池外延生长和器件转移的模板是有用的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 IEEE 42nd Photovoltaic Specialist Conference (PVSC)

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