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Correction to Nanomaterials 2019, 9(2), 168.
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Correction

Correction: Shen et al. Black Phosphorus Nano-Polarizer with High Extinction Ratio in Visible and Near-Infrared Regime. Nanomaterials 2019, 9, 168

by
Wanfu Shen
1,2,3,
Chunguang Hu
1,2,*,
Shuchun Huo
1,2,
Zhaoyang Sun
1,2,
Guofang Fan
4,
Jing Liu
1,2,
Lidong Sun
3 and
Xiaotang Hu
1,2
1
State Key Laboratory of Precision Measuring Technology and Instruments, Tianjin University, Weijin Road, Tianjin 300072, China
2
Nanchang Institute for Microtechnology of Tianjin University, Weijin Road, Tianjin 300072, China
3
Institute of Experimental Physics, Johannes Kepler University Linz, A-4040 Linz, Austria
4
Key Laboratory of All Optical Network and Advanced Telecommunication Network of Ministry of Education, Institute of Lightwave Technology, Beijing Jiaotong University, Beijing 100044, China
*
Author to whom correspondence should be addressed.
Nanomaterials 2025, 15(10), 703; https://doi.org/10.3390/nano15100703
Submission received: 16 April 2025 / Accepted: 28 April 2025 / Published: 8 May 2025
Browse Figure
Versions Notes
In the original publication [1], there was a mistake in Figure 5 as published. Figure 5b was accidentally duplicated with Figure 4a by the authors. The corrected Figure 5 appears below. The authors state that the scientific conclusions are unaffected. This correction was approved by the Academic Editor. The original publication has also been updated.

Reference

  1. Shen, W.; Hu, C.; Huo, S.; Sun, Z.; Fan, G.; Liu, J.; Sun, L.; Hu, X. Black Phosphorus Nano-Polarizer with High Extinction Ratio in Visible and Near-Infrared Regime. Nanomaterials 2019, 9, 168. [Google Scholar] [CrossRef] [PubMed]
Nanomaterials 15 00703 g005
Figure 5. (a) A schematic diagram for a four-phase thin film system: air, a dielectric film (BP and SiO2), and a Si substrate. (b) The optical anisotropy of BP on a 90 nm SiO2/Si substrate as a function of the thickness of the BP film at a wavelength of 600 nm. Left: contour plot of ∆R/RAZ of BP on a 90 nm (c) and 300 nm (e) SiO2/Si substrate as a function of the thickness of BP and the wavelength of incident light. Right: plots of polarization wavelengths with an extinction ratio higher than 16 dB as a function of the thickness of the BP film on a 90 nm (d) and 300 nm (f) SiO2/Si substrate.
Figure 5. (a) A schematic diagram for a four-phase thin film system: air, a dielectric film (BP and SiO2), and a Si substrate. (b) The optical anisotropy of BP on a 90 nm SiO2/Si substrate as a function of the thickness of the BP film at a wavelength of 600 nm. Left: contour plot of ∆R/RAZ of BP on a 90 nm (c) and 300 nm (e) SiO2/Si substrate as a function of the thickness of BP and the wavelength of incident light. Right: plots of polarization wavelengths with an extinction ratio higher than 16 dB as a function of the thickness of the BP film on a 90 nm (d) and 300 nm (f) SiO2/Si substrate.
Nanomaterials 15 00703 g005
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MDPI and ACS Style

Shen, W.; Hu, C.; Huo, S.; Sun, Z.; Fan, G.; Liu, J.; Sun, L.; Hu, X. Correction: Shen et al. Black Phosphorus Nano-Polarizer with High Extinction Ratio in Visible and Near-Infrared Regime. Nanomaterials 2019, 9, 168. Nanomaterials 2025, 15, 703. https://doi.org/10.3390/nano15100703

AMA Style

Shen W, Hu C, Huo S, Sun Z, Fan G, Liu J, Sun L, Hu X. Correction: Shen et al. Black Phosphorus Nano-Polarizer with High Extinction Ratio in Visible and Near-Infrared Regime. Nanomaterials 2019, 9, 168. Nanomaterials. 2025; 15(10):703. https://doi.org/10.3390/nano15100703

Chicago/Turabian Style

Shen, Wanfu, Chunguang Hu, Shuchun Huo, Zhaoyang Sun, Guofang Fan, Jing Liu, Lidong Sun, and Xiaotang Hu. 2025. "Correction: Shen et al. Black Phosphorus Nano-Polarizer with High Extinction Ratio in Visible and Near-Infrared Regime. Nanomaterials 2019, 9, 168" Nanomaterials 15, no. 10: 703. https://doi.org/10.3390/nano15100703

APA Style

Shen, W., Hu, C., Huo, S., Sun, Z., Fan, G., Liu, J., Sun, L., & Hu, X. (2025). Correction: Shen et al. Black Phosphorus Nano-Polarizer with High Extinction Ratio in Visible and Near-Infrared Regime. Nanomaterials 2019, 9, 168. Nanomaterials, 15(10), 703. https://doi.org/10.3390/nano15100703

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