Laser & Optoelectronics Progress, Volume. 60, Issue 11, 1106016(2023)
Optical Biosensors Based on Graphene-Like Two-Dimensional Materials
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![Zero-dimensional fullerene, one-dimensional single-wall carbon nanotube, and three-dimensional graphite formed by graphene[7]](/Images/icon/loading.gif){kind=icon}
Fig. 1. Zero-dimensional fullerene, one-dimensional single-wall carbon nanotube, and three-dimensional graphite formed by graphene[7]
Fig. 3. Schematic diagram of the detection principle of GO-based fluorescent biosensor[46]
Fig. 4. Graphene optical sensors for cell recognition. (a) Flow-sensing system for a single-cell setup; (b) discrete time-dependent changes in voltage that correspond to mixed lymphocytes and Jurkat cells as they roll across the detection window; (c) enlarged images of voltage signal at certain positions in Fig. (b); (d) statistical plot of mixed cells of Jurkat cells and lymphocytes detected (regions R1 and R2 represent the statistical distribution of Jurkat cells and lymphocytes, respectively, inset is the histograms with the number of counts for each cell population)[52]
Fig. 5. Monitoring the response of cancer cells to drugs using graphene sensors. (a) Schematic diagram of graphene optical sensing system; (b) weak refractive index change generated by ultrasonic; (c) response time of the graphene-based optical sensor; (d) response of LoVo cell to paclitaxel[54]
Fig. 6. Schematic illustration of the graphene oxide/up conversion nanoparticle sensor detection flow[56]
Fig. 7. Schematic view of the formation of GONS@SurMB and delivery of the nanocarriers to the astrocyte cells to detect survivin mRNA[58]
Fig. 8. Detection of miRNA using antimonene SPR sensor. (a) Schematic diagram of an antimonene sensor for detecting miRNA hybridization events; (b) SPR spectra with miRNA concentrations ranging from 10-17 mol/L to 10-11 mol/L (arrow indicates the changes in SPR angle)[59]
Fig. 9. The GO-AgNPs SERS sensor detects PSA. (a) Illustration for SERS immunoassay of PSA; (b) SERS spectra; (c) linear curve for PSA detection[61]
Fig. 10. Graphene SPR sensors specifically detect proteins. (a) Principle of graphene-based fiber optic SPR biosensor and the experimental setup; (b) SPR spectra for each analyte; (c) SPR wavelengths for each analyte[63]
Table 1. Difference between a graphene-based electrical sensor and a graphene-based optical sensor[51]
View tableTable 1. Difference between a graphene-based electrical sensor and a graphene-based optical sensor[51]
Sensor Work principle Advantage Disadvantage Graphene
electrical sensor
Since graphene exhibits ambipolar behavior,the p-type or n-type behavior can be tuned effectively by the gate voltage. The principle of sensing is based on changes in drain-source conductivity of the graphene channel upon the binding of the sample to the receptor-functionalized graphene Small size,large surface area,fast electron transfer,fast response time,high sensitivity and reduced surface contamination Only measure current changes,low spatial resolution,damage samples,affect results Graphene
optical sensor
Under total internal reflection,graphene exhibits characteristics of enhanced polarization absorption and broadband absorption. The sensor uses the attenuated total reflection method to detect the refractive index change near the sensor surface High spatial resolution,wide and deep detection range,high sensitivity and high precision,accurate and fast detection,unlabeled samples Since the light absorption rate of single-layer graphene is too low,the area generated by the active photocurrent is too small. Aggregation and precipitation of high concentration samples may affect optical detection
Table 2. Comparison of multiple PSA detection methods
View tableTable 2. Comparison of multiple PSA detection methods
Immunoassay method Detection range /(ng·mL-1) Detection limit /(ng·mL-1) Years Reference SERS immunoassay 5×10-4-0.5 2.3×10-4 2018 [ 61 ]SERS assay 0.05-200 0.05 2016 [ 64 ]Colorimetric assay 0.05-20 0.03 2013 [ 65 ]Colorimetric assay 0-10 4 2016 [ 66 ]Fluoroimmunoassay 0-128 0.33 2014 [ 67 ]light scattering assay 0.05-10 0.02 2017 [ 68 ]light scattering assay 1-20 1 2017 [ 69 ]Electrochemiluminescence 1.4-70 3.5 2013 [ 70 ]Electrochemical assay 0.14-1400 0.14 2013 [ 71 ]Electrochemical assay 0.01-10 0.006 2012 [ 72 ]
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Jiahui Zhang, Xiuhong Wang. Optical Biosensors Based on Graphene-Like Two-Dimensional Materials[J]. Laser & Optoelectronics Progress, 2023, 60(11): 1106016
Paper Information
Category: Fiber Optics and Optical Communications
Received: Feb. 16, 2023
Accepted: Apr. 28, 2023
Published Online: Jun. 7, 2023
The Author Email: Wang Xiuhong (wxh2012@bjut.edu.cn)
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