Fabrication of micro sensors on a flexible substrate

Abstract Flexible micro temperature and humidity sensors on parylene thin films were designed and fabricated using a micro-electro-mechanical-systems (MEMS) process. Based on the principles of the thermistor and the ability of a polymer to absorb moisture, the sensing device comprised gold wire and polyimide film. The flexible micro sensors were patterned between two pieces of parylene thin film that had been etched using O 2 plasma to open the contact pads. The sacrificial Cr spacer layer was removed from the Cr etchant to release the flexible temperature and humidity sensors from the silicon substrate. Au was used to form the sensing electrode of the sensors while Ti formed the adhesion layer between the parylene and Au. The thickness of the device was 7 ± 1 μm, so the sensors attached easily to highly curved surfaces. The sensitivities of the temperature and humidity sensor were 4.81 × 10 −3  °C −1 and 0.03 pF/%RH, respectively. This work demonstrates the feasibility and compatibility of thin film sensor applications based on flexible parylene. The sensor can be applied to fuel cells or components that must be compressed.

[1]  N. Lee,et al.  Polymer thin film transistor with electroplated source and drain electrodes on a flexible substrate , 2006 .

[2]  S. Takeuchi,et al.  Fabrication of Flexible Neural Probes With Built-In Microfluidic Channels by Thermal Bonding of Parylene , 2006, Journal of Microelectromechanical Systems.

[3]  John S. Wilson,et al.  Sensor Technology Handbook , 2004 .

[4]  Hong-Seok Noha,et al.  Parylene micromolding, a rapid and low-cost fabrication method for parylene microchannel , 2004 .

[5]  W. Shih,et al.  Buckled-type valves integrated by parylene micro-tubes , 2005, The 13th International Conference on Solid-State Sensors, Actuators and Microsystems, 2005. Digest of Technical Papers. TRANSDUCERS '05..

[6]  Claude Pellet,et al.  Fast response Humidity Sensors for a Medical Microsystem , 2003 .

[7]  Jing Wang,et al.  Study on dielectric properties of humidity sensing nanometer materials , 2005 .

[8]  P. Su,et al.  Novel flexible resistive-type humidity sensor , 2007 .

[9]  Donald P. Butler,et al.  Micromachined bolometers on polyimide , 2006 .

[10]  Y. Tai,et al.  On-chip temperature gradient interaction chromatography. , 2006, Journal of chromatography. A.

[11]  Ching-Liang Dai,et al.  A capacitive humidity sensor integrated with micro heater and ring oscillator circuit fabricated by CMOS–MEMS technique , 2007 .

[12]  T. Stieglitz,et al.  Encapsulation of organic field effect transistors for flexible biomedical microimplants , 2005 .

[13]  Y. Tai,et al.  Micromachined High-Aspect-Ratio Parylene Spring and Its Application to Low-Frequency Accelerometers , 2006, Journal of Microelectromechanical Systems.

[14]  Chang Liu,et al.  Parylene surface-micromachined membranes for sensor applications , 2004, Journal of Microelectromechanical Systems.

[15]  A. Kingon,et al.  Flexible thin film temperature and strain sensor array utilizing a novel sensing concept , 2007 .

[16]  Minoru Taya,et al.  Design of Micro-Temperature Sensor Array With Thin Film Thermocouples , 2005 .

[17]  Douglas L. Jones,et al.  Institute of Physics Publishing Journal of Micromechanics and Microengineering Texture Classification Using a Polymer-based Mems Tactile Sensor , 2022 .

[18]  Arun Majumdar,et al.  Parylene micro membrane capacitive sensor array for chemical and biological sensing , 2006 .

[19]  Simon S. Ang,et al.  Fabrication, modeling and testing of a thin film Au/Ti microheater , 2007 .