Development of Pressure Sensitive Molecular Film Suitable to Pressure Measurement of High Knudsen Number Flows

Abstract

The pressure-sensitive paint (PSP) has potential as a diagnostic tool for pressure measurement in the high Knudsen number regime because it works as a so-called “molecular sensor”. However, there are few reports concerning application of the PSP to micro devices because the conventional PSP is too thick owing to the use of polymer binder. In this study, we have adopted Langmuir-Blodgett (LB) technique to fabricate pressure sensitive molecular films (PSMFs) using Pd (II) Octaethylporphine (PdOEP) and Pd (II) Mesoporphyrin IX (PdMP), and have tested these PSMFs to evaluate the feasibility of the pressure measurement around micro-devices. It is clarified that the PSMF composed of PdMP has higher sensitivity than that of PdOEP. Since it is also considered that the sensitivity of PSMFs can be increased by introducing arachidic acid as the spacer molecules to prevent the aggregation of luminescent molecules, we have produced PSMFs with several molar ratio of PdMP to arachidic acid. At the most suitable ratio, the PSMF has sufficient sensitivity in the low pressure region with high Knudsen number, even if the amount of the luminescent molecules in the PSMF layer is smaller than those in conventional PSPs. This indicates that the PSMF is feasible to measure the pressure in high Knudsen number flows such as micro-flows.