Thermal characterization of a thin film heater on glass substrate for lab-on-chip applications

This paper presents for the first time an accurate thermal characterization of thin film heaters manufactured on glass substrates. The characterization has been performed on Cr/Al/Cr meandered heaters. Techniques commonly adopted for measuring the temperature coefficient of resistance, the thermal resistance and thermal capacitance in the case of Si-based microheaters have been conveniently modified to take into account the fundamentally different thermal parameters of a heater manufactured on glass. In order to reduce power consumption, 250 μm wide trenches were manufactured on the back side of the heaters, obtaining an increase of the thermal resistance of about 50% when the glass is in good thermal contact with a heat sink. The measured values of thermal resistance and time constants on a heat sink and in air have been justified with simple physical considerations. Guidelines are also given for a further increase of the thermal resistance of the thin film heaters.

[1]  Takatoki Yamamoto,et al.  PDMS-glass hybrid microreactor array with embedded temperature control device. Application to cell-free protein synthesis. , 2002, Lab on a chip.

[2]  N. Chomnawang,et al.  Fabrication and control of thin-film aluminum microheater and nickel temperature sensor , 2011, The 8th Electrical Engineering/ Electronics, Computer, Telecommunications and Information Technology (ECTI) Association of Thailand - Conference 2011.

[3]  Dimos Poulikakos,et al.  A micro heater platform with fluid channels for testing micro-solid oxide fuel cell components , 2012 .

[4]  Hiroyuki Fujita,et al.  Temperature alternation by an on-chip microheater to reveal enzymatic activity of beta-galactosidase at high temperatures. , 2005, Analytical chemistry.

[5]  Pisana Placidi,et al.  Thermal characterization of a microheater for micromachined gas sensors , 2004 .

[6]  Pisana Placidi,et al.  A System for the Dynamic Control and Thermal Characterization of Ultra Low Power Gas Sensors , 2011, IEEE Transactions on Instrumentation and Measurement.

[7]  Ankur Jain,et al.  Microheater platform for selective detachment of DNA , 2012 .

[8]  A. Nascetti,et al.  Monitoring of Temperature Distribution in a Thin Film Heater by an Array of a-Si:H Temperature Sensors , 2012, IEEE Sensors Journal.

[9]  Teruo Fujii,et al.  Towards single cell heat shock response by accurate control on thermal confinement with an on-chip microwire electrode. , 2011, Lab on a chip.

[10]  Zewen Liu,et al.  Study on a Low Power and High Efficiency Micro Heater Used in μPCR Chip , 2012 .

[11]  Gian Carlo Cardinali,et al.  Selectivity enhancement of metal oxide gas sensors using a micromachined gas chromatographic column , 2005 .