Infrared Polaritonic Biosensors Based on Two-Dimensional Materials

Du, Guangyu; Bao, Xiaozhi; Lin, Shenghuang; Pang, Huan; Nanjunda, Shivananju Bannur; Bao, Qiaoliang

doi:10.3390/molecules26154651

Cited by 3 publications

(2 citation statements)

References 92 publications

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“…The discovery of graphene by Novoselov and Geim in 2004 brought the study of two-dimensional (2D) materials to the forefront of technological and scientific research. [1] Graphene and other 2D van der Waals (vdW) [2][3][4] materials (e.g., BN, WSe 2 , and MoS 2 ) have shown potential applications in energy storage [5] and sensors, [6][7][8] owing to their excellent properties, such as remarkable electronic and mechanical properties, [9,10] tremendous surface-to-volume ratio, [11] outstanding thermal conductivity, [12,13] and so on. Recently, a new 2D Mingquan Ding and Huijun Liu are contributed equally.…”

Section: Introductionmentioning

confidence: 99%

Raman spectrum of MXene Ti₂C under planar symmetrical strain: First‐principles calculations

Ding

Liu

Jiang

et al. 2022

J Raman Spectroscopy

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The vibrational, electronic and Raman properties of monolayer Ti 2 C under planar symmetrical strain excited by two commonly used laser lines (532 and 633 nm) are investigated by first-principles calculations. By analyzing the phonon spectrum, the stability of strained monolayer Ti 2 C is obtained. The strained Ti 2 C is found to have the same point group symmetry and thereby the same Raman-active modes as unstrained Ti 2 C, but their Raman peaks exhibit notable red (blue) shift characteristic with symmetrical tensile (compressive) strain. We also discussed the polarization angle dependent Raman intensity in parallel and perpendicular configuration as a guide for experimental characterization in terms of the locations and magnitudes of maxima and found that the locations of maxima for the E g (A 1g ) mode are dependent (independent) of the laser wavelength and the strain. The variation of the polarization direction averaged Raman spectra versus strain can be further explained by the characteristics of light absorbance.

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Section: Introductionmentioning

confidence: 99%

Raman spectrum of MXene Ti₂C under planar symmetrical strain: First‐principles calculations

Ding

Liu

Jiang

et al. 2022

J Raman Spectroscopy

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“…They can break through the diffraction limit in traditional photonic devices and reduce the transmission loss, making it possible to combine the advantages of photons and electrons and integrate them into the chip. It has been widely used in biosensor [21][22][23][24][25], integrated optical path devices [26], sub-diffracting limit imager [27], Mach-Zehnder interferometer [28], and other devices. In a series of waveguide designs, SPPs structures containing metallic materials can achieve good light transmission in the subwavelength range.…”

mentioning

confidence: 99%

Research on sensing characteristics of third‐order runway series symmetric microring resonator based on hybrid plasma waveguide and metal insulator metal

Zhang

et al. 2022

Journal of Biophotonics

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In this paper, a high-sensitivity refractive index sensor based on a hybrid plasma waveguide and metal-insulator-metal waveguide combined third-order runway series mosaic microring resonator is proposed. In this structure, a GaAs waveguide ring surrounds a gold waveguide ring in the middle, and the innermost layer is a disk made of gold material.The outer groove waveguide is composed of GaAs-air-alloy, and the inner groove waveguide is made of the Gold-Air-Gold material disc. By filling different substances in the groove, the change of refractive index will affect the optical signal strength of the output spectrum. The finite element method simulates the transmission spectrum and electric field distribution of the sensor structure. The amplitude coupling coefficient and attenuation factor affecting the resonator's performance are analyzed, and the structural parameters of the slot waveguide are optimized. The numerical simulation results show that the sensor quality factor of this structure is 1.54 Â 10 4 , the sensitivity is 1.2 Â 10 3 nm/RIU which is about 1.5 times higher than that of the Si ring with the same structure, the detection limit can reach 8.1892 Â 10 À7 RIU, and the free spectral range can reach 109 nm. Compared with the traditional microring structure, this microring has higher design freedom and free spectral range and is more suitable for producing biosensors with high sensitivity, low detection limit, and multi-parameter measurement.

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Ultra-sensitive and selective 2D hybrid highly doped semiconductor-graphene biosensor based on SPR and SEIRA effects in the wide range of infrared spectral

Miandoab

Talebzadeh

2022

Optical Materials

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Infrared Polaritonic Biosensors Based on Two-Dimensional Materials

Cited by 3 publications

References 92 publications

Raman spectrum of MXene Ti₂C under planar symmetrical strain: First‐principles calculations

Raman spectrum of MXene Ti₂C under planar symmetrical strain: First‐principles calculations

Research on sensing characteristics of third‐order runway series symmetric microring resonator based on hybrid plasma waveguide and metal insulator metal

Ultra-sensitive and selective 2D hybrid highly doped semiconductor-graphene biosensor based on SPR and SEIRA effects in the wide range of infrared spectral

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Infrared Polaritonic Biosensors Based on Two-Dimensional Materials

Cited by 3 publications

References 92 publications

Raman spectrum of MXene Ti2C under planar symmetrical strain: First‐principles calculations

Raman spectrum of MXene Ti2C under planar symmetrical strain: First‐principles calculations

Research on sensing characteristics of third‐order runway series symmetric microring resonator based on hybrid plasma waveguide and metal insulator metal

Ultra-sensitive and selective 2D hybrid highly doped semiconductor-graphene biosensor based on SPR and SEIRA effects in the wide range of infrared spectral

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Raman spectrum of MXene Ti₂C under planar symmetrical strain: First‐principles calculations

Raman spectrum of MXene Ti₂C under planar symmetrical strain: First‐principles calculations