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Photon-Triggered Current Generation in Chemically-Synthesized Silicon Nanowires

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Title
Photon-Triggered Current Generation in Chemically-Synthesized Silicon Nanowires
Author(s)
Kim, Jungkil; Kim, Ha-Reem; Lee Hoo-Cheol; Kim Kyoung-Ho; Hwang Min-Soo; Lee Jung Min; Jeong Kwang-Yong; Hong-Gyu Park
Subject
chemical synthesis, ; photodetector, ; Photon-triggered current, ; porous silicon, ; silicon nanowire
Publication Date
2019-02
Journal
NANO LETTERS, v.19, no.2, pp.1269 - 1274
Publisher
AMER CHEMICAL SOC
Abstract
A porous Si segment in a Si nanowire (NW), when exposed to light, generates a current with a high on/off ratio. This unique feature has been recently used to demonstrate photon-triggered NW devices including transistors, logic gates, and photodetection systems. Here, we develop a reliable and simple procedure to fabricate porous Si segments in chemically synthesized Si NWs for photon-triggered current generation. To achieve this, we employ 100 nm-diameter chemical-vapor-deposition grown Si NWs that possess an n-type high doping level and extremely smooth surface. The NW regions uncovered by electron-beam resist become selectively porous through metal-assisted chemical etching, using Ag nanoparticles as a catalyst. The contact electrodes are then fabricated on both ends of such NWs, and the generated current is measured when the laser is focused on the porous Si segment. The current level is changed by controlling the power of the incident laser and bias voltage. The on/off ratio is measured up to 1.5 × 10 4 at a forward bias of 5 V. In addition, we investigate the porous-length-dependent responsivity of the NW device with the porous Si segment. The responsivity is observed to decrease for porous segment lengths beyond 360 nm. Furthermore, we fabricate nine porous Si segments in a single Si NW and measure the identical photon-triggered current from each porous segment; this single NW device can function as a high-resolution photodetection system. Therefore, our fabrication method to precisely control the position and length of the porous Si segments opens up new possibilities for the practical implementation of programmable logic gates and ultrasensitive photodetectors. Copyright © 2019 American Chemical Society
URI
https://pr.ibs.re.kr/handle/8788114/5722
DOI
10.1021/acs.nanolett.8b04843
ISSN
1530-6984
Appears in Collections:
Center for Molecular Spectroscopy and Dynamics(분자 분광학 및 동력학 연구단) > 1. Journal Papers (저널논문)
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