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Photonic hook formation in near-infrared with MXene Ti3C2 nanoparticles

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Photonic hook formation in near-infrared with MXene Ti3C2 nanoparticles. / Spector, Marat; Ang, Angeleene S.; Minin, Oleg V. et al.
In: Nanoscale Advances, Vol. 2, No. 11, 01.11.2020, p. 5312-5318.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Spector, M, Ang, AS, Minin, OV, Minin, IV & Karabchevsky, A 2020, 'Photonic hook formation in near-infrared with MXene Ti3C2 nanoparticles', Nanoscale Advances, vol. 2, no. 11, pp. 5312-5318. https://doi.org/10.1039/d0na00485e

APA

Spector, M., Ang, A. S., Minin, O. V., Minin, I. V., & Karabchevsky, A. (2020). Photonic hook formation in near-infrared with MXene Ti3C2 nanoparticles. Nanoscale Advances, 2(11), 5312-5318. https://doi.org/10.1039/d0na00485e

Vancouver

Spector M, Ang AS, Minin OV, Minin IV, Karabchevsky A. Photonic hook formation in near-infrared with MXene Ti3C2 nanoparticles. Nanoscale Advances. 2020 Nov 1;2(11):5312-5318. Epub 2020 Sept 22. doi: 10.1039/d0na00485e

Author

Spector, Marat ; Ang, Angeleene S. ; Minin, Oleg V. et al. / Photonic hook formation in near-infrared with MXene Ti3C2 nanoparticles. In: Nanoscale Advances. 2020 ; Vol. 2, No. 11. pp. 5312-5318.

Bibtex

@article{d600da50627f4081b9b7be2a02b80726,
title = "Photonic hook formation in near-infrared with MXene Ti3C2 nanoparticles",
abstract = "MXenes, a recently developed class of 2D materials, have attracted considerable attention because of their graphene-like but highly tunable properties. It appears that the metallic properties of MXene titanium carbide are pronounced in near-infrared with well-defined localised surface plasmon resonance (LSPR). Here, we report on a curved photonic nanojet, known as the photonic hook, applied on a titanium carbide nanoparticle for the particle's optomechanical manipulation. We show that the optical forces generated and applied on titanium carbide nanoparticles of various shapes are based on the LSPR excitation in near-infrared. We compare the obtained results to traditional plasmonic gold nanoparticles which exhibit LSPR in visible. Considering the diversity of the MXene family, this study is a first step towards photonic devices that utilize optomechanical manipulation in near-infrared for biomedical research, optical trapping and others.",
author = "Marat Spector and Ang, {Angeleene S.} and Minin, {Oleg V.} and Minin, {Igor V.} and Alina Karabchevsky",
year = "2020",
month = nov,
day = "1",
doi = "10.1039/d0na00485e",
language = "English",
volume = "2",
pages = "5312--5318",
journal = "Nanoscale Advances",
issn = "2516-0230",
publisher = "Royal Society of Chemistry",
number = "11",

}

RIS

TY - JOUR

T1 - Photonic hook formation in near-infrared with MXene Ti3C2 nanoparticles

AU - Spector, Marat

AU - Ang, Angeleene S.

AU - Minin, Oleg V.

AU - Minin, Igor V.

AU - Karabchevsky, Alina

PY - 2020/11/1

Y1 - 2020/11/1

N2 - MXenes, a recently developed class of 2D materials, have attracted considerable attention because of their graphene-like but highly tunable properties. It appears that the metallic properties of MXene titanium carbide are pronounced in near-infrared with well-defined localised surface plasmon resonance (LSPR). Here, we report on a curved photonic nanojet, known as the photonic hook, applied on a titanium carbide nanoparticle for the particle's optomechanical manipulation. We show that the optical forces generated and applied on titanium carbide nanoparticles of various shapes are based on the LSPR excitation in near-infrared. We compare the obtained results to traditional plasmonic gold nanoparticles which exhibit LSPR in visible. Considering the diversity of the MXene family, this study is a first step towards photonic devices that utilize optomechanical manipulation in near-infrared for biomedical research, optical trapping and others.

AB - MXenes, a recently developed class of 2D materials, have attracted considerable attention because of their graphene-like but highly tunable properties. It appears that the metallic properties of MXene titanium carbide are pronounced in near-infrared with well-defined localised surface plasmon resonance (LSPR). Here, we report on a curved photonic nanojet, known as the photonic hook, applied on a titanium carbide nanoparticle for the particle's optomechanical manipulation. We show that the optical forces generated and applied on titanium carbide nanoparticles of various shapes are based on the LSPR excitation in near-infrared. We compare the obtained results to traditional plasmonic gold nanoparticles which exhibit LSPR in visible. Considering the diversity of the MXene family, this study is a first step towards photonic devices that utilize optomechanical manipulation in near-infrared for biomedical research, optical trapping and others.

U2 - 10.1039/d0na00485e

DO - 10.1039/d0na00485e

M3 - Journal article

C2 - 36132028

VL - 2

SP - 5312

EP - 5318

JO - Nanoscale Advances

JF - Nanoscale Advances

SN - 2516-0230

IS - 11

ER -