Author
Listed:
- Luojun Du
(Aalto University)
- Yanchong Zhao
(Chinese Academy of Sciences
University of Chinese Academy of Sciences)
- Linlu Wu
(Renmin University of China)
- Xuerong Hu
(Aalto University
Northwest University)
- Lide Yao
(Aalto University)
- Yadong Wang
(Aalto University)
- Xueyin Bai
(Aalto University)
- Yunyun Dai
(Aalto University)
- Jingsi Qiao
(Renmin University of China
National University of Singapore)
- Md Gius Uddin
(Aalto University)
- Xiaomei Li
(Chinese Academy of Sciences
University of Chinese Academy of Sciences)
- Jouko Lahtinen
(Aalto University)
- Xuedong Bai
(Chinese Academy of Sciences
University of Chinese Academy of Sciences
Songshan Lake Materials Laboratory)
- Guangyu Zhang
(Chinese Academy of Sciences
University of Chinese Academy of Sciences
Songshan Lake Materials Laboratory)
- Wei Ji
(Renmin University of China)
- Zhipei Sun
(Aalto University
Aalto University)
Abstract
A confined electronic system can host a wide variety of fascinating electronic, magnetic, valleytronic and photonic phenomena due to its reduced symmetry and quantum confinement effect. For the recently emerging one-dimensional van der Waals (1D vdW) materials with electrons confined in 1D sub-units, an enormous variety of intriguing physical properties and functionalities can be expected. Here, we demonstrate the coexistence of giant linear/nonlinear optical anisotropy and high emission yield in fibrous red phosphorus (FRP), an exotic 1D vdW semiconductor with quasi-flat bands and a sizeable bandgap in the visible spectral range. The degree of photoluminescence (third-order nonlinear) anisotropy can reach 90% (86%), comparable to the best performance achieved so far. Meanwhile, the photoluminescence (third-harmonic generation) intensity in 1D vdW FRP is strong, with quantum efficiency (third-order susceptibility) four (three) times larger than that in the most well-known 2D vdW materials (e.g., MoS2). The concurrent realization of large linear/nonlinear optical anisotropy and emission intensity in 1D vdW FRP paves the way towards transforming the landscape of technological innovations in photonics and optoelectronics.
Suggested Citation
Luojun Du & Yanchong Zhao & Linlu Wu & Xuerong Hu & Lide Yao & Yadong Wang & Xueyin Bai & Yunyun Dai & Jingsi Qiao & Md Gius Uddin & Xiaomei Li & Jouko Lahtinen & Xuedong Bai & Guangyu Zhang & Wei Ji , 2021.
"Giant anisotropic photonics in the 1D van der Waals semiconductor fibrous red phosphorus,"
Nature Communications, Nature, vol. 12(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-25104-6
DOI: 10.1038/s41467-021-25104-6
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