| Title : A lipase-conjugated carbon nanotube fiber-optic SPR sensor for sensitive and specific detection of tributyrin - Zhang_2024_Nanoscale__ |
| Author(s) : Zhang H , Li X , Zhou X , Zhang Y , Zhao Y |
| Ref : Nanoscale , : , 2024 |
| Abstract : As a low-density lipoprotein, tributyrin plays an essential role in food safety and human health. In this study, a novel lipase-conjugated carbon nanotube (CNT) surface plasmon resonance (SPR) fiber-optic sensor is used to specifically detect tributyrin for the first time. In this work, CNTs can be used as an amplifying material to significantly increase the sensitivity of SPR sensors due to their high refractive index and large surface area. CNTs can also be used as an enzyme carrier to provide abundant carboxyl groups for the specific binding of lipases. Covering the surface of the sensor with CNTs can not only enhance the performance of the sensor, but also provide sufficient detection sites for subsequent biomass detection, reduce the functionalization steps, and simplify the sensor preparation process. The experimental results demonstrate that the refractive index sensitivity of the traditional multimode fiber (MMF)-single mode fiber (SMF)-MMF transmissive optical fiber sensor is 1705 nm RIU(-1). After covering the sensor with CNTs, the sensitivity is 2077 nm RIU(-1), and the sensitivity has been improved very well. In addition, there are abundant functional groups on CNTs, which can provide abundant binding sites. Conjugating lipase on carbon nanotubes helps to achieve linear detection in the range of 0.5 mM to 4 mM tributyrin, with a sensitivity of 4.45 nm mM(-1) and a detection limit of 0.34 mM, which is below the 2.26 mM detection standard and meets food safety monitoring requirements. Compared with other sensors, the optical fiber biosensor proposed in this study expands the concentration detection range of tributyrin. Furthermore, the sensor also has good stability, anti-interference performance and specificity. Therefore, the sensor proposed in this paper has good application prospects in the fields of food safety and biomedicine. |
| ESTHER : Zhang_2024_Nanoscale__ |
| PubMedSearch : Zhang_2024_Nanoscale__ |
| PubMedID: 38258424 |
Zhang H, Li X, Zhou X, Zhang Y, Zhao Y (2024)
A lipase-conjugated carbon nanotube fiber-optic SPR sensor for sensitive and specific detection of tributyrin
Nanoscale
:
Zhang H, Li X, Zhou X, Zhang Y, Zhao Y (2024)
Nanoscale
: