A high-quality-factor ultra-narrowband perfect metamaterial absorber based on monolayer molybdenum disulfide

Jiang, Liying; Yi, Yingting; Tang, Yongqiang; Li, Zhiyou; Yi, Zao; Liu, Li; Chen, Xifang; Jian, Ronghua; Wu, Pinghui; Yan, Peiguang

doi:10.1088/1674-1056/ac1e11

Cited by 36 publications

(13 citation statements)

References 28 publications

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“…For an ideal absorber must have a high efficiency of light absorption and many other physical properties, such as polarization stability and adjustability etc. (Jiang et al, 2021a;Li et al, 2021b;Li R. et al, 2021c;Li-Ying et al, 2021;Wu et al, 2021). However, the existing absorbers are generally limited by low temperature tolerance, low light absorption efficiency and materials (Briggs et al, 2010;Li et al, 2020a;Chen et al, 2021a;Chen et al, 2021b;Jiang et al, 2021b).…”

Section: Introductionmentioning

confidence: 99%

Design and Photoelectric Performance of Perfect Solar Absorber Based on GaAs Grating

Liu

et al. 2022

Front. Mater.

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In recent years, solar energy has received extensive attention as a clean and renewable energy. We present a perfect broadband solar absorber based on tungsten and semiconductor GaAs in this paper. The structure of GaAs grating-GaAs film-W substrate has been proposed. And the finite time domain difference method (FDTD) has been used for the numerical simulation of the model. Broadband absorption has been realized in the 500–1,850 nm, by adjusting the parameters of geometry to excite high-efficiency surface plasmon resonance. The absorption spectrum of the structure can be changed by adjusting the geometric parameters to meet different needs. The proposed absorber has incidence insensitive (0–60°) and high short-circuit current characteristics. The structure is simple and easy to manufacture, and has superior photoelectric properties to be application in photothermal conversion, collection and utilization of solar energy.

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Section: Introductionmentioning

confidence: 99%

Design and Photoelectric Performance of Perfect Solar Absorber Based on GaAs Grating

Liu

et al. 2022

Front. Mater.

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“…Among them, metal nanostructures have been widely studied in the field of solar cells due to their unique properties of enhancing electric fields and improving light absorption [ 23 , 24 , 25 ]. They use the local electromagnetic field near the metal surface to amplify and produce local surface plasmons (LSPs) at the interface between metal nanoparticles and semiconductor materials [ 26 , 27 , 28 ]. The electromagnetic wave propagated by LSPs along with the interface of the metal back contact and semiconductor absorption layer can effectively capture and conduct incident light in the semiconductor layer [ 29 ].…”

Section: Introductionmentioning

confidence: 99%

The Structure Design and Photoelectric Properties of Wideband High Absorption Ge/GaAs/P3HT:PCBM Solar Cells

Zeng

2022

Micromachines

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Using the finite-difference time-domain (FDTD) method, we designed an ultra-thin Ge/GaAs/P3HT:PCBM hybrid solar cell (HSC), which showed good effects of ultra-wideband (300 nm–1200 nm), high absorption, and a short-circuit current density of 44.7 mA/cm2. By changing the thickness of the active layer P3HT:PCBM, we analyzed the capture of electron-hole pairs. We also studied the effect of Al2O3 on the absorption performance of the cell. Through adding metal Al nanoparticles (Al-NPs) and then analyzing the figures of absorption and electric field intensity, we found that surface plasma is the main cause of solar cell absorption enhancement, and we explain the mechanism. The results show that the broadband absorption of the solar cell is high, and it plays a great role in capturing sunlight, which will be of great significance in the field of solar cell research.

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“…When the scale of the microstructure is close to the incident wavelength, the influence on the wave can be realized [2]. In the last 10 years, the absorber based on meta-material developed rapidly [3][4][5][6][7]. At the same time, many researchers have also made very significant contributions in the manufacturing process of metamaterials, such as Akinoglu et al who report their research on BCP (block copolymer) lithography route [8,9].…”

Section: Introductionmentioning

confidence: 99%

Metamaterial Solar Absorber Based on Refractory Metal Titanium and Its Compound

Song

et al. 2022

Coatings

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Metamaterials refers to a class of artificial materials with special properties. Through its unique geometry and the small size of each unit, the material can acquire unique electromagnetic field properties that conventional materials do not have. Based on these factors, we put forward a kind of high absorption near-ultraviolet to near-infrared electromagnetic wave absorber of the solar energy. The surface structure of the designed absorber is composed of TiN-TiO2-Al2O3 with rectangles and disks, and the substrate is Ti-Al2O3-Ti layer. In the study band range (0.1–3.0 μm), the solar absorber’s average absorption is up to 96.32%, and the designed absorber absorbs more than 90% of the electromagnetic wave with a wavelength width of 2.577 μm (0.413–2.990 μm). Meanwhile, the designed solar absorber has good performance under different angles of oblique incident light. Ultra-wideband solar absorbers have great potential in light absorption related applicaitions because of their wide spectrum high absorption properites.

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A high-quality-factor ultra-narrowband perfect metamaterial absorber based on monolayer molybdenum disulfide

Cited by 36 publications

References 28 publications

Design and Photoelectric Performance of Perfect Solar Absorber Based on GaAs Grating

Design and Photoelectric Performance of Perfect Solar Absorber Based on GaAs Grating

The Structure Design and Photoelectric Properties of Wideband High Absorption Ge/GaAs/P3HT:PCBM Solar Cells

Metamaterial Solar Absorber Based on Refractory Metal Titanium and Its Compound

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