Deb Prasenjit, Dhar Jay Chandra
Department of Electronics and Communication Engineering, National Institute of Technology Nagaland, Dimapur 797103, India.
Nanotechnology. 2020 Apr 24;31(28):285202. doi: 10.1088/1361-6528/ab8084. Epub 2020 Mar 17.
Here, we report on the fabrication and use of a silver (Ag) nanoparticle (NP) decorated TiO nanowire (NW)/reduced graphene oxide (RGO) thin-film (TF) heterostructure as a UV detector, using a controlled method called the glancing angle deposition technique. Transmission electron microscope images show Ag NPs (size 7-13 nm) covering the entire surface of the TiO NWs. A high absorption as well as photoluminescence for the Ag NP-TiO NW/RGO TF sample reveals the generation of a large number of electron-hole pairs compared to bare TiO NW. The resulting plasmonic UV photodetector from the Ag NP-TiO NW/RGO TF exhibits a rectification ratio of 5039 (+10 V) and responsivity of 1760 A W at 350 nm light (with power density as low as 0.58 µ W cm). Moreover, the device shows fast response speed (rise time of 157 ms and fall time of 488 ms) with detectivity and noise equivalent power of 6.659 × 10 Jones and 51 fW, respectively. The enhanced plasmonic field and high scattering of light, along with the high mobility RGO layer at the bottom, result in the superior performance of the device.
在此,我们报道了一种银(Ag)纳米颗粒(NP)修饰的TiO纳米线(NW)/还原氧化石墨烯(RGO)薄膜(TF)异质结构的制备及用作紫外探测器的情况,采用的是一种名为掠角沉积技术的可控方法。透射电子显微镜图像显示Ag NPs(尺寸为7 - 13 nm)覆盖了TiO NWs的整个表面。与裸TiO NW相比,Ag NP - TiO NW/RGO TF样品具有高吸收以及光致发光,这表明产生了大量的电子 - 空穴对。由Ag NP - TiO NW/RGO TF制成的等离子体紫外光探测器在350 nm光(功率密度低至0.58 µW/cm²)下表现出5039(+10 V)的整流比和1760 A/W的响应度。此外,该器件显示出快速的响应速度(上升时间为157 ms,下降时间为488 ms),探测率和噪声等效功率分别为6.659×10 Jones和51 fW。增强的等离子体场和光的高散射,以及底部高迁移率的RGO层,导致了该器件的优异性能。
