通过可控连续离子层吸附与反应循环法沉积的InS/ZnO核壳异质结构纳米棒阵列的光转换效率

Photoconversion efficiency of InS/ZnO core-shell heterostructures nanorod arrays deposited via controlled SILAR cycles.

作者信息

Almamari Mohammed Rashid, Ahmed Naser M, Holi Araa Mebdir, Yam F K, Al-Abri Mohammed Z, Almessiere M A, El-Badry Basma A, Ibrahem M A, Aldaghri Osamah A, Ibnaouf Khalid Hassan

机构信息

School of Physics, Universiti Sains Malaysia, 11800 Penang, Malaysia.

Nanotechnology Research Center, Sultan Qaboos University, P.O Box 17, Al Khoud, Muscat, PC 123, Oman.

出版信息

Heliyon. 2022 Jul 16;8(7):e09959. doi: 10.1016/j.heliyon.2022.e09959. eCollection 2022 Jul.

DOI:10.1016/j.heliyon.2022.e09959

PMID:35874070

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9305363/

Abstract

This paper reports the structures, morphologies, optical properties, and photoconversion efficiency (η%) of the InS/ZnO core-shell heterostructures nanorod arrays (IZCSHNRAs) produced via the controlled successive ionic layer absorption and reaction (SILAR) cycles. As-produced samples were characterized using XRD, FESEM, TEM, UV-Vis, PL, XPS and FTIR techniques. The proposed IZCSHNRAs revealed nearly double photocurrent density and η% values compared to the pure ZnO nanorod arrays (ZNRAs). In addition, the light absorption, crystallinity and microstructures of the specimens were appreciably improved with the increase of the SILAR cycles. The deposited nanoparticles of InS (ISNPs) on the ZNRAs surface was responsible for the improvement in the heterostructures, light absorption and photogenerated electron-hole pairs separation, thus enhancing the photoconversion performance. It is established that a simple SILAR approach can be very useful to produce good quality IZCSHNRAs-based photoelectrodes required for the future development of high performance photoelectrochemical cells (PECs).

摘要

本文报道了通过可控连续离子层吸附与反应（SILAR）循环制备的InS/ZnO核壳异质结构纳米棒阵列（IZCSHNRAs）的结构、形貌、光学性质和光转换效率（η%）。使用XRD、FESEM、TEM、UV-Vis、PL、XPS和FTIR技术对所制备的样品进行了表征。与纯ZnO纳米棒阵列（ZNRAs）相比，所提出的IZCSHNRAs显示出近两倍的光电流密度和η%值。此外，随着SILAR循环次数的增加，样品的光吸收、结晶度和微观结构得到了显著改善。沉积在ZNRAs表面的InS纳米颗粒（ISNPs）导致了异质结构、光吸收和光生电子-空穴对分离的改善，从而提高了光转换性能。已证实，一种简单的SILAR方法对于制备高性能光电化学电池（PEC）未来发展所需的高质量基于IZCSHNRAs的光电极非常有用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4a61/9305363/bb509bfc9cb4/gr1.jpg

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通过可控连续离子层吸附与反应循环法沉积的InS/ZnO核壳异质结构纳米棒阵列的光转换效率

Photoconversion efficiency of InS/ZnO core-shell heterostructures nanorod arrays deposited via controlled SILAR cycles.

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