Lab on a single fiber: A three-parameter sensor based on triple-SPR for one-to-one detection of DNA, pH and temperature

In order to realize the one-to-one correspondence between outputs and inputs in the multiparameter detection field, a multiparameter DNA hybridization sensor with temperature and pH detection channels based on a fiberbased triple surface plasmon resonance (Triple-SPR) effect is demonstrated in this paper. Compared with previous works, the significant innovation of this paper is the independent temperature testing and pH testing channels implemented based on a single fiber optic structure, and the high-sensitivity DNA hybridization detection channel. Polydimethylsiloxane and the self-assembled materials formed by polyacrylic acid (PAA) and chitosan (CS) are used for the real-time detection of temperature and pH. With the help of these two materials, the instantaneous response of the Triple-SPR sensor to temperature and pH has been realized, and the response times (RT) are less than 1 s and 20 s, respectively. After the modification of probe DNA (pDNA), the selective detection of complementary DNA (cDNA) is achieved. The sensitivity and detection limit (DL) reaches 0.09 nm/ (nmol/L) and 3.69 nmol/L, respectively. The experimental results demonstrate that an approximately one-to-one correspondence exists between inputs and outputs. The output signals can be used to provide feedback signals for achieving stable temperature and pH environments. The advantages of multi-parameter independent detection, high-sensitivity as well as fast response of the fiber-based Triple-SPR sensing technology are of great significance in the field of future multi-parameter sensing, compensated detection as well as real-time bio-monitoring.

Automated summary

In this paper, a multiparameter DNA hybridization sensor with temperature and pH detection channels based on a fiber-based triple surface plasmon resonance (Triple-SPR) effect is demonstrated. The innovation of this paper lies in the independent temperature and pH testing channels implemented based on a single fiber optic structure, and the high sensitivity DNA hybridization detection channel. Polydimethylsiloxane and self-assembled materials are used for the real-time detection of temperature and pH. After the modification of probe DNA, the selective detection of complementary DNA is achieved. The advantages of multi-parameter independent detection, high sensitivity, and fast response of the fiber-based Triple-SPR sensing technology are of great significance in future multi-parameter sensing, compensated detection, and real-time bio-monitoring applications.