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Literature DB >> 25562610

Plasmon resonances of highly doped two-dimensional MoS₂.

Yichao Wang¹, Jian Zhen Ou, Adam F Chrimes, Benjamin J Carey, Torben Daeneke, Manal M Y A Alsaif, Majid Mortazavi, Serge Zhuiykov, Nikhil Medhekar, Madhu Bhaskaran, James R Friend, Michael S Strano, Kourosh Kalantar-Zadeh.

Abstract

The exhibition of plasmon resonances in two-dimensional (2D) semiconductor compounds is desirable for many applications. Here, by electrochemically intercalating lithium into 2D molybdenum disulfide (MoS2) nanoflakes, plasmon resonances in the visible and near UV wavelength ranges are achieved. These plasmon resonances are controlled by the high doping level of the nanoflakes after the intercalation, producing two distinct resonance peak areas based on the crystal arrangements. The system is also benchmarked for biosensing using bovine serum albumin. This work provides a foundation for developing future 2D MoS2 based biological and optical units.

Entities: Chemical Species

Keywords: MoS2; Two-dimensional; biosensor; doping; electrochemical intercalation; plasmonics

Mesh：

Substances：

Year: 2015 PMID： 25562610 DOI： 10.1021/nl503563g

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

7 in total

1. Atomic-scale photonic hybrids for mid-infrared and terahertz nanophotonics.

Authors: Joshua D Caldwell; Igor Vurgaftman; Joseph G Tischler; Orest J Glembocki; Jeffrey C Owrutsky; Thomas L Reinecke
Journal: Nat Nanotechnol Date: 2016-01 Impact factor: 39.213

Review 2. 2D Material-Based Optical Biosensor: Status and Prospect.

Authors: Zong-Lin Lei; Bo Guo
Journal: Adv Sci (Weinh) Date: 2021-12-13 Impact factor: 16.806

3. Immunoassay-Amplified Responses Using a Functionalized MoS₂-Based SPR Biosensor to Detect PAPP-A2 in Maternal Serum Samples to Screen for Fetal Down's Syndrome.

Authors: Nan-Fu Chiu; Ming-Jung Tai; Devi Taufiq Nurrohman; Ting-Li Lin; Ying-Hao Wang; Chen-Yu Chen
Journal: Int J Nanomedicine Date: 2021-04-09

Plasmon resonances of highly doped two-dimensional MoS₂.

1. Atomic-scale photonic hybrids for mid-infrared and terahertz nanophotonics.

Review 2. 2D Material-Based Optical Biosensor: Status and Prospect.

3. Immunoassay-Amplified Responses Using a Functionalized MoS₂-Based SPR Biosensor to Detect PAPP-A2 in Maternal Serum Samples to Screen for Fetal Down's Syndrome.

4. Super strong wide TM Mie bandgaps tolerating disorders.

5. Anomalous plasmons in a two-dimensional Dirac nodal-line Lieb lattice.

Review 6. Plasmonics of 2D Nanomaterials: Properties and Applications.

Review 7. 2D Material Optoelectronics for Information Functional Device Applications: Status and Challenges.

Plasmon resonances of highly doped two-dimensional MoS₂.

1. Atomic-scale photonic hybrids for mid-infrared and terahertz nanophotonics.

Review 2. 2D Material-Based Optical Biosensor: Status and Prospect.

3. Immunoassay-Amplified Responses Using a Functionalized MoS2-Based SPR Biosensor to Detect PAPP-A2 in Maternal Serum Samples to Screen for Fetal Down's Syndrome.

4. Super strong wide TM Mie bandgaps tolerating disorders.

5. Anomalous plasmons in a two-dimensional Dirac nodal-line Lieb lattice.

Review 6. Plasmonics of 2D Nanomaterials: Properties and Applications.

Review 7. 2D Material Optoelectronics for Information Functional Device Applications: Status and Challenges.

3. Immunoassay-Amplified Responses Using a Functionalized MoS₂-Based SPR Biosensor to Detect PAPP-A2 in Maternal Serum Samples to Screen for Fetal Down's Syndrome.