Effect of a buffer layer on the dynamic injection of hot electrons in an Au/Ag NRs@SiO2@ZnO:Ga MW

IF 2.6 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

CrystEngComm Pub Date : 2025-08-06 DOI:10.1039/D5CE00544B

Yuan Ni, Mingming Jiang, Caixia Kan, Juan Xu, Yang Liu, Kai Tang and Maosheng Liu

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Abstract

Surface plasmons (SPs) have been extensively utilized to improve the light emission of semiconductor devices due to their exceptional light-harvesting capability. Upon light excitation, hot electrons derived from the surface plasmon resonance (SPR) of metallic nanostructures can be injected into adjacent semiconductors, thereby increasing carrier concentration. Moreover, an electrical driving force can cause the emission of red light from an incandescent-type light source composed of Au/Ag nanorods (Au/Ag NRs) decorated with a single Ga-doped ZnO microwire (Au/Ag NRs@ZnO:Ga MW). In this study, we focus on the dynamic injection of hot electrons under an electrical driving force by introducing a buffer layer of silica into the Au/Ag NRs@ZnO:Ga MW. Benefiting from SPs, incandescent-type light can be observed with the central wavelength located in the near-infrared region. By modulating the thickness of the buffer layer, we investigate the variation in the emission wavelength of the MW, reflecting the influence of SP-hot-electron interactions on the dynamic emission procedure.

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缓冲层对Au/Ag中热电子动态注入的影响NRs@SiO2@ZnO:Ga MW

表面等离子体（SPs）由于其独特的光捕获能力已被广泛用于改善半导体器件的光发射。在光激发下，金属纳米结构的表面等离子体共振（SPR）产生的热电子可以注入邻近的半导体中，从而增加载流子浓度。此外，电驱动力可以使Au/Ag纳米棒（Au/Ag NRs）组成的白炽灯型光源（Au/Ag NRs@ZnO:Ga MW）发出红光。在本研究中，我们通过在Au/Ag NRs@ZnO:Ga MW中引入二氧化硅缓冲层，重点研究了在电驱动力下热电子的动态注入。得益于SPs，可以观测到中心波长位于近红外区域的白炽灯型光。通过调节缓冲层的厚度，我们研究了微波发射波长的变化，反映了sp -热电子相互作用对动态发射过程的影响。

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