Realization of large-scale sub-10 nm nanogratings using a repetitive wet-chemical oxidation and etching technique

Jo, Min-Seung; Choi, Kwang-Wook; Seo, Min‐Ho; Yoon, Jun‐Bo

doi:10.1186/s40486-017-0053-y

Cited by 10 publications

(9 citation statements)

References 26 publications

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“…The fabrication started with a pre-designed SiO 2 nanograting substrate (Fig. 2 a,i); the SiO 2 nanograting was manufactured from Si nanograting via wet-chemical size reduction process 39 and thermal oxidation. The process of preparing the substrate and a scanning electron microscope image of the substrate are shown in Supplementary Fig.…”

Section: Resultsmentioning

confidence: 99%

Aligned CuO nanowire array for a high performance visible light photodetector

Song

Kim

et al. 2022

Sci Rep

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Recently, copper oxide (CuO) has drawn much attention as a promising material in visible light photodetection with its advantages in ease of nanofabrication. CuO allows a variety of nanostructures to be explored to enhance the optoelectrical performance such as photogenerated carriers scattering and bandgap engineering. However, previous researches neglect in-depth analysis of CuO’s light interaction effects, restrictively using random orientation such as randomly arranged nanowires, single nanowires, and dispersed nanoparticles. Here, we demonstrate an ultra-high performance CuO visible light photodetector utilizing perfectly-aligned nanowire array structures. CuO nanowires with 300 nm-width critical dimension suppressed carrier transport in the dark state and enhanced the conversion of photons to carriers; additionally, the aligned arrangement of the nanowires with designed geometry improved the light absorption by means of the constructive interference effect. The proposed nanostructures provide advantages in terms of dark current, photocurrent, and response time, showing unprecedentedly high (state-of-the-art) optoelectronic performance, including high values of sensitivity (S = 172.21%), photo-responsivity (R = 16.03 A/W, λ = 535 nm), photo-detectivity (D* = 7.78 × 1011 Jones), rise/decay time (τr/τd = 0.31 s/1.21 s).

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Section: Resultsmentioning

confidence: 99%

Aligned CuO nanowire array for a high performance visible light photodetector

Song

Kim

et al. 2022

Sci Rep

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“…The unique nanostructure was realized by developing a sophisticated top‐down approach. First, a periodic Si nanograting (NG) substrate with 80 nm linewidth and 320 nm spacing is prepared, [ 27,28 ] followed by thermal oxidation. The oxidized NG with 500 nm in thickness serves as a structural mold for nanowire fabrication as well as a robust mechanical support after its air‐suspension.…”

Section: Resultsmentioning

confidence: 99%

Perfectly Aligned, Air‐Suspended Nanowire Array Heater and Its Application in an Always‐On Gas Sensor

Choi

Lee

et al. 2020

Adv Funct Materials

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In spite of the excellent thermal properties of nanowires, the typical form factor of unrefined nanowires has restricted their potential use in developing ultralow power electrothermal heater and application device. In this paper, a nanowire array with a perfectly aligned geometric structure on an air-suspended beam is proposed as a novel heating element. By locally confining the generated heat and suppressing beam conduction loss to the substrate, the proposed nanowire array heater overcomes the fundamental power consumption limits of conventional film-type microheaters. As a result, only 2.51 mW of power is required to reach an average temperature of 300 °C, surpassing the performance of state-of-the-art microheaters. The developed nanowire array heater is monolithically integrated with gas sensing nanowires to demonstrate its full capability as an ultralow power gas sensor. The fabricated device successfully detects low concentration carbon monoxide gas of 1 ppm, using less than 5 mW of power. The presented technique offers a promising pathway toward realizing always-on gas sensors driven by battery-powered mobile devices, which will ensure a hazardous gas-free safe environment. In addition, the proposed strategy of employing geometrically structured nanomaterials in the electrothermal heater design enables to lead out their potential thermal capability in many other applications.

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“…The grating with sub-wavelength resolution can be manufactured via electron beam lithography [35]. To overcome the poor tolerance of HHG to grating imperfections, the wetchemical oxidation/etching technique could be adopted to further limit the roughness of the grating within a few nanometer range [36]. In experiment, the transverse deviation ∆d of the laser axis from the center of the grating should be taken care of.…”

Section: The Three-dimensional (3d) Particle-in-cell (Pic) Numerical ...mentioning

confidence: 99%

Relativistic high-order harmonic generation by a femto-second radially polarized laser pulse irradiating a ring plasma grating

Zhang¹,

Zhuo²,

Yin³

et al. 2022

Plasma Phys. Control. Fusion

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A novel scheme for generating relativistic high-order harmonics by a relativistic radially polarized laser interacting with a plasma annular grating is proposed. The particle-in-cell results show that the radial laser field can drive the relativistic electron bunches to oscillate radially in all azimuth directions, resulting in the emission of strong harmonics. Firstly, the interference of the laser field on the plasma grating structure significantly enhances the radiated harmonics which match the phase conditions. Secondly, due to the common ring symmetry of the grating structure and laser polarization, the transverse distribution of harmonics presents a Bessel form, and there is a sharp bright spot in the center with relativistic intensity. Such high-intensity short-wave structured harmonics have broad applications in areas such as plasma diagnostics, high resolution imaging and detection.

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Realization of large-scale sub-10 nm nanogratings using a repetitive wet-chemical oxidation and etching technique

Cited by 10 publications

References 26 publications

Aligned CuO nanowire array for a high performance visible light photodetector

Aligned CuO nanowire array for a high performance visible light photodetector

Perfectly Aligned, Air‐Suspended Nanowire Array Heater and Its Application in an Always‐On Gas Sensor

Relativistic high-order harmonic generation by a femto-second radially polarized laser pulse irradiating a ring plasma grating

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