New Class of Optical Blood Glucose Sensors Based on a PMMA Mach-Zehnder Interferometer

Authors

Hongqiang Li, Tiangong University
Shuai Ma, Tiangong University
Mingjun Ding, Tiangong University
Lizhen Zhang, Tiangong University
Licheng Zuo, TianJin University of Technology and Education
Fanglin Xie, Tiangong University
Wentao Meng, Tiangong University
Shanshan Zhang, Tiangong University
Lu Cao, Tianjin University
Feng Ren, Wearable IC Intelligent Technology (Tianjin) Co. Ltd.
Yang Liu, Tianjin MicroNano Manufacturing Tech. Co., Ltd
Youshan Hu, Ltd.
Changyu Li, Ltd.
Enbang Li, University of Wollongong

Publication Name

ACS Photonics

Abstract

Optical sensors have emerged as suitable platforms for monitoring health parameters in a personalized fashion and have the potential to revolutionize the way that diabetes is diagnosed and treated. We propose a blood glucose sensor based on a poly(methyl methacrylate) (PMMA) Mach-Zehnder interferometer (MZI) device. The influence of the main structural parameters, including the input/output structure, Y-branch angle, and sensing arm length, on the MZI blood glucose sensor was studied. The experimental results showed that there was a linear relationship between the optical power and glucose concentration in the range of [0, 260] mg/dL. As the glucose concentration increases, the differential optical power decreases approximately linearly, and the sensitivity is 267 mW/(mg/dL). This MZI blood glucose sensor is promising for integration with polymer-based planar waveguides to develop novel photonic devices.

Open Access Status

This publication is not available as open access

Volume

11

Issue

4

First Page

1684

Last Page

1692

Funding Number

61711530652

Funding Sponsor

National Natural Science Foundation of China