Enhanced terahertz metasurface biosensor with reduced substrate effect for trace detection of lung cancer cells

Yunhao Cao; Mingyao Gao; Hongshun Sun; Yusa Chen; Zewen Wei; Wengang Wu

doi:10.1063/5.0278327

Enhanced terahertz metasurface biosensor with reduced substrate effect for trace detection of lung cancer cells

Yunhao Cao, Mingyao Gao, Hongshun Sun, Yusa Chen, Zewen Wei, Wengang Wu^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

This paper reports an ultrasensitive Terahertz metasurface biosensor with the reduced substrate effect for trace detection of lung cancer cells. By innovatively etching the quartz substrate before gold deposition, our design achieves enhanced light-matter interaction, achieving trace detection of lung cancer cells. The biosensor demonstrates dual-parameter detection capability through both resonant frequency shifts (Δf) and amplitude attenuation (ΔA). Experimental results reveal distinct responses to living HCC-827 cancer cells at ultralow concentrations: Δf values of 46 GHz (pure serum), 52 GHz (1 cell/Unit), 62 GHz (2 cells/Unit), and 66 GHz (3 cells/Unit), with ΔA values of 12.22, 12.62, 14.17, and 14.76 dB, respectively. Crucially, the biosensor reliably detects 1 cell/Unit (69 cells/mm²) with 6 GHz Δf and 0.4 dB ΔA differentials vs control, surpassing current THz-TDS resolution limits. This technology shows significant potential for cost-effective early lung cancer diagnosis through rapid, label-free cell detection.

源语言	英语
文章编号	031705
期刊	Applied Physics Letters
卷	127
期	3
DOI	http://doi.org/10.1063/5.0278327
出版状态	已出版 - 21 7月 2025
已对外发布	是

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10.1063/5.0278327

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title = "Enhanced terahertz metasurface biosensor with reduced substrate effect for trace detection of lung cancer cells",

abstract = "This paper reports an ultrasensitive Terahertz metasurface biosensor with the reduced substrate effect for trace detection of lung cancer cells. By innovatively etching the quartz substrate before gold deposition, our design achieves enhanced light-matter interaction, achieving trace detection of lung cancer cells. The biosensor demonstrates dual-parameter detection capability through both resonant frequency shifts (Δf) and amplitude attenuation (ΔA). Experimental results reveal distinct responses to living HCC-827 cancer cells at ultralow concentrations: Δf values of 46 GHz (pure serum), 52 GHz (1 cell/Unit), 62 GHz (2 cells/Unit), and 66 GHz (3 cells/Unit), with ΔA values of 12.22, 12.62, 14.17, and 14.76 dB, respectively. Crucially, the biosensor reliably detects 1 cell/Unit (69 cells/mm2) with 6 GHz Δf and 0.4 dB ΔA differentials vs control, surpassing current THz-TDS resolution limits. This technology shows significant potential for cost-effective early lung cancer diagnosis through rapid, label-free cell detection.",

author = "Yunhao Cao and Mingyao Gao and Hongshun Sun and Yusa Chen and Zewen Wei and Wengang Wu",

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AU - Cao, Yunhao

AU - Gao, Mingyao

AU - Sun, Hongshun

AU - Chen, Yusa

AU - Wei, Zewen

AU - Wu, Wengang

PY - 2025/7/21

Y1 - 2025/7/21

N2 - This paper reports an ultrasensitive Terahertz metasurface biosensor with the reduced substrate effect for trace detection of lung cancer cells. By innovatively etching the quartz substrate before gold deposition, our design achieves enhanced light-matter interaction, achieving trace detection of lung cancer cells. The biosensor demonstrates dual-parameter detection capability through both resonant frequency shifts (Δf) and amplitude attenuation (ΔA). Experimental results reveal distinct responses to living HCC-827 cancer cells at ultralow concentrations: Δf values of 46 GHz (pure serum), 52 GHz (1 cell/Unit), 62 GHz (2 cells/Unit), and 66 GHz (3 cells/Unit), with ΔA values of 12.22, 12.62, 14.17, and 14.76 dB, respectively. Crucially, the biosensor reliably detects 1 cell/Unit (69 cells/mm2) with 6 GHz Δf and 0.4 dB ΔA differentials vs control, surpassing current THz-TDS resolution limits. This technology shows significant potential for cost-effective early lung cancer diagnosis through rapid, label-free cell detection.

AB - This paper reports an ultrasensitive Terahertz metasurface biosensor with the reduced substrate effect for trace detection of lung cancer cells. By innovatively etching the quartz substrate before gold deposition, our design achieves enhanced light-matter interaction, achieving trace detection of lung cancer cells. The biosensor demonstrates dual-parameter detection capability through both resonant frequency shifts (Δf) and amplitude attenuation (ΔA). Experimental results reveal distinct responses to living HCC-827 cancer cells at ultralow concentrations: Δf values of 46 GHz (pure serum), 52 GHz (1 cell/Unit), 62 GHz (2 cells/Unit), and 66 GHz (3 cells/Unit), with ΔA values of 12.22, 12.62, 14.17, and 14.76 dB, respectively. Crucially, the biosensor reliably detects 1 cell/Unit (69 cells/mm2) with 6 GHz Δf and 0.4 dB ΔA differentials vs control, surpassing current THz-TDS resolution limits. This technology shows significant potential for cost-effective early lung cancer diagnosis through rapid, label-free cell detection.

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SN - 0003-6951

VL - 127

JO - Applied Physics Letters

JF - Applied Physics Letters

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M1 - 031705

ER -

Enhanced terahertz metasurface biosensor with reduced substrate effect for trace detection of lung cancer cells

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