Figure of merit enhancement of Ti3C2Tx-graphene based long-range surface plasmon sensor at telecommunication wavelength

被引:0
作者
Rajeev Kumar
Sarika Pal
Narendra Pal
Alka Verma
J. P. Saini
Yogendra Kumar Prajapati
机构
[1] National Institute of Technology Uttarakhand,Department of ECE
[2] Roorkee Institute of Technology,Department of ECE
[3] Institute of Engineering and Rural Technology,Department of ECE
[4] Netaji Subhas University of Technology,undefined
[5] Motilal Nehru National Institute of Technology Allahabad,undefined
来源
Optical and Quantum Electronics | 2021年 / 53卷
关键词
Long range surface plasmon resonance (LRSPR) sensor; Figure of merit (FoM); Sensitivity (S); Propagation depth (PD);
D O I
暂无
中图分类号
学科分类号
摘要
In this work, the long-range surface plasmon resonance (LRSPR) sensor based on dielectric Ti3C2Tx-graphene layers is demonstrated. Here, MXene (Ti3C2Tx) is used as a metal for strong surface plasmon’s generation at 1550 nm excitation wavelength. Graphene is used to attach the biomolecules having carbon–carbon structure with pi stacking interactions. The detection accuracy (DA) and figure of merit (FoM) for the proposed LRSPR sensor is theoretically investigated at telecommunication wavelength. The highest FoM of (559.64 RIU−1) is obtained at 3100 nm dielectric thickness and 14 nm Ti3C2Tx thickness of the proposed sensor. The maximum improvement in FoM is 273% to the traditional LRSPR sensors. Propagation depths are also evaluated for Au-graphene and proposed LRSPR sensor at 14 and 27 nm thicknesses of Ti3C2Tx We believe that the Ti3C2Tx can be used in place of metals for strong plasmon generation in future sensor designs at telecommunication wavelengths.
引用
收藏
相关论文
共 86 条
  • [1] Chabot V(2012)Long range surface plasmon resonance for increased sensitivity in living cell biosensing through greater probing depth Sensors and actuators B Chemical 174 94-101
  • [2] Miron Y(2019)Sensitivity comparison of graphene-based surface plasmon resonance biosensor with Au, Ag and Cu in the visible region Mater. Res. Exp. 6 056503-11838
  • [3] Grandbois M(2019)Sensitivity analysis of graphene multilayer-based surface plasmon resonance biosensor in the ultraviolet, visible and infrared regions Appl. Phys. A 125 230-4168
  • [4] Charette PG(2019)Theoretical Investigation of Multilayer Ti IEEE Sens. J. 19 11834-15
  • [5] Chen S(2016)C Adv. Funct. Mater. 26 4162-3611
  • [6] Lin C(2019)T Results Phys. 13 102320-151
  • [7] Chen S(1999) MXene as the Plasmonic Material for Surface Plasmon Resonance Sensors in Near Infrared Region Sens. Actuator Chem. 54 3-201
  • [8] Lin C(2020)Highly conductive optical quality solution-processed films of 2D titanium carbide Superlatt. Microstruct. 145 106591-352
  • [9] Dai X(2019)Sensitivity enhancement of surface plasmon resonance sensors with 2D franckeite nanosheets Phys. Rev. B 99 085429-168
  • [10] Song C(2015)Surface plasmon resonance sensors Opt. Quantum Electron. 47 3599-3907
123456789