Design of an Optical Thermal Sensor Based on Polydimethylsiloxane Polymers
DOI:
https://doi.org/10.63163/jpehss.v4i1.1149Keywords:
optical thermal sensor; PDMS-based sensing; dielectric photonic crystalsAbstract
The study employed polydimethylsiloxane polymers with the purpose of developing an optical temperature sensor. It will have practical uses in biosensing and temperature-sensing. The PDMS polymer will be applied onto the photonic crystal hole and subsequently filled with it. When the voids in the polymer are filled, a functional layer will form on the surface of the photonic crystal, despite the polymer's inherent liquid state and flexibility. In order to test bio-sensing capabilities, we subjected polymers to a controlled temperature variation environment, which resulted in a change in the reflective index as a result of temperature. Low temperatures result in a high reflecting index, whereas high temperatures lead to a low reflective index, causing transparency owing to light. The unit cell design will be subjected to experimental modifications to enhance the accuracy of the results, utilizing Meep Python, a simulation program
