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Literature DB >> 26923685

Actively Tunable Visible Surface Plasmons in Bi2 Te3 and their Energy-Harvesting Applications.

Meng Zhao^1,2, Jie Zhang³, Nengyue Gao¹, Peng Song^1,2, Michel Bosman^4,5, Bo Peng^1,2, Baoquan Sun³, Cheng-Wei Qiu⁶, Qing-Hua Xu¹, Qiaoliang Bao^3,7, Kian Ping Loh^1,2.

Abstract

Hexagonal Bi2 Te3 nanoplates support visible-range surface plasmons, of which the resonance energy is tuned as wide as 400 nm by Se doping and the resonance intensity is modulated by utilizing the phase change between the crystalline and amorphous states. The potential of Bi2 Te3 for reconfigurable plasmonics, plasmon-enhanced solar cells, and photoluminescence is demonstrated.

Keywords: Bi2Te3; energy harvesting; novel plasmonic materials; photoluminescence enhancement; plasmon modulation

Year: 2016 PMID： 26923685 DOI： 10.1002/adma.201506367

Source DB: PubMed Journal: Adv Mater ISSN： 0935-9648 Impact factor: 30.849

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Cited

6 in total

1. Direct Observation of the Epitaxial Growth of Bismuth Telluride Topological Insulators from One-Dimensional Heterostructured Nanowires.

Authors: Rei-Ping Li; Shiang-Yi Lu; Yen-Jen Lin; Chih-Yen Chen
Journal: Nanomaterials (Basel) Date: 2022-06-29 Impact factor: 5.719

2. Robust broad spectral photodetection (UV-NIR) and ultra high responsivity investigated in nanosheets and nanowires of Bi₂Te₃ under harsh nano-milling conditions.

Authors: Alka Sharma; A K Srivastava; T D Senguttuvan; Sudhir Husale
Journal: Sci Rep Date: 2017-12-20 Impact factor: 4.379

Actively Tunable Visible Surface Plasmons in Bi2 Te3 and their Energy-Harvesting Applications.

1. Direct Observation of the Epitaxial Growth of Bismuth Telluride Topological Insulators from One-Dimensional Heterostructured Nanowires.

2. Robust broad spectral photodetection (UV-NIR) and ultra high responsivity investigated in nanosheets and nanowires of Bi₂Te₃ under harsh nano-milling conditions.

3. Magnetic plasmon resonances in nanostructured topological insulators for strongly enhanced light-MoS₂ interactions.

4. Few-layer hexagonal bismuth telluride (Bi₂Te₃) nanoplates with high-performance UV-Vis photodetection.

5. Unexplored photoluminescence from bulk and mechanically exfoliated few layers of Bi₂Te₃.

6. Plasmonic Emission of Bullseye Nanoemitters on Bi₂Te₃ Nanoflakes.

Actively Tunable Visible Surface Plasmons in Bi2 Te3 and their Energy-Harvesting Applications.

1. Direct Observation of the Epitaxial Growth of Bismuth Telluride Topological Insulators from One-Dimensional Heterostructured Nanowires.

2. Robust broad spectral photodetection (UV-NIR) and ultra high responsivity investigated in nanosheets and nanowires of Bi2Te3 under harsh nano-milling conditions.

3. Magnetic plasmon resonances in nanostructured topological insulators for strongly enhanced light-MoS2 interactions.

4. Few-layer hexagonal bismuth telluride (Bi2Te3) nanoplates with high-performance UV-Vis photodetection.

5. Unexplored photoluminescence from bulk and mechanically exfoliated few layers of Bi2Te3.

6. Plasmonic Emission of Bullseye Nanoemitters on Bi2Te3 Nanoflakes.

2. Robust broad spectral photodetection (UV-NIR) and ultra high responsivity investigated in nanosheets and nanowires of Bi₂Te₃ under harsh nano-milling conditions.

3. Magnetic plasmon resonances in nanostructured topological insulators for strongly enhanced light-MoS₂ interactions.

4. Few-layer hexagonal bismuth telluride (Bi₂Te₃) nanoplates with high-performance UV-Vis photodetection.

5. Unexplored photoluminescence from bulk and mechanically exfoliated few layers of Bi₂Te₃.

6. Plasmonic Emission of Bullseye Nanoemitters on Bi₂Te₃ Nanoflakes.