Growth of ultra-flat ultra-thin alkali antimonide photocathode films

IF 5.3 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

APL Materials Pub Date : 2024-06-01 DOI:10.1063/5.0213461

W. G. Stam, M. Gaowei, E. Echeverria, Kenneth Evans-Lutterodt, Jean Jordan-Sweet, T. Juffmann, S. Karkare, J. Maxson, S. J. van der Molen, C. Pennington, P. Saha, J. Smedley, R. M. Tromp

引用次数: 0

Abstract

Ultra-flat, ultra-thin alkali antimonide photocathodes with high crystallinity can exhibit high quantum efficiency and low mean transverse energy of outgoing electrons, which are essential requirements for a variety of applications for photocathode materials. Here, we investigate the growth of Cs3Sb on graphene-coated 4H–SiC (Gr/4H–SiC), 3C–SiC, and Si3N4 substrates. Sb is deposited using pulsed laser deposition, while Cs is deposited thermally and simultaneously. We demonstrate, employing x-ray analysis and quantum efficiency measurements, that this growth method yields atomically smooth Cs3Sb photocathodes with a high quantum efficiency (>10%), even in the ultra-thin limit (<30 nm). For the Si3N4 substrate, film growth is shown to be polycrystalline, while films grown on Gr/4H–SiC show a high degree of ordering with signs of epitaxy.

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超平超薄碱锑化物光电阴极薄膜的生长

具有高结晶度的超平、超薄碱锑化物光电阴极可以表现出较高的量子效率和较低的出射电子平均横向能量，这是光电阴极材料各种应用的基本要求。在此，我们研究了在石墨烯涂层的 4H-SiC (Gr/4H-SiC)、3C-SiC 和 Si3N4 衬底上生长 Cs3Sb 的情况。锑是通过脉冲激光沉积法沉积的，而铯则是通过热沉积法同时沉积的。我们通过 X 射线分析和量子效率测量证明，这种生长方法能产生原子级光滑的 Cs3Sb 光阴极，即使在超薄极限（<30 nm）下，量子效率也很高（>10%）。在 Si3N4 衬底上生长的薄膜是多晶的，而在 Gr/4H-SiC 上生长的薄膜则显示出高度的有序性，并有外延的迹象。

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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来源期刊

APL Materials NANOSCIENCE & NANOTECHNOLOGYMATERIALS SCIE-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

9.60

自引率

3.30%

发文量

199

审稿时长

2 months

期刊介绍： APL Materials features original, experimental research on significant topical issues within the field of materials science. In order to highlight research at the forefront of materials science, emphasis is given to the quality and timeliness of the work. The journal considers theory or calculation when the work is particularly timely and relevant to applications. In addition to regular articles, the journal also publishes Special Topics, which report on cutting-edge areas in materials science, such as Perovskite Solar Cells, 2D Materials, and Beyond Lithium Ion Batteries.

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