Journal ArticleDOI
Dynamic thermal sensor - principles in MEMS for fluid characterization
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TLDR
In this article, a micromachined sensor was developed for the measurement of transient thermal signal responses leading to the thermal characterization of fluids at low sample volumes using thin-film technology with its characteristic low masses and high aspect ratios.Abstract:
Using thin-film technology with its characteristic low masses and high aspect ratios a new range of possibilities is made available for the use of dynamic thermal measuring principles. Based on this, a micromachined sensor was developed for the measurement of transient thermal signal responses leading to the thermal characterization of fluids at low sample volumes. The achieved resolution allowed the measurement of thermal parameters of the investigated fluids, i.e., thermal conductivity and specific heat, inside microfluidic systems at a high sensitivity, enabling the detection of inter-fluid boundaries, e.g., as found in micromixers and -reactors, making the sensor a useful tool for micro fluidic system characterization. This is achieved via the measurement of the frequency dependent thermal signal response.read more
Citations
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PatentDOI
Discrete elements for 3d microfluidics
TL;DR: In this paper, a set of multiple modules may be arranged into an arrangement of modules, which may be coupled together using one or more coupling mechanisms included on each module, and each module within the arrangement may have a form suitable for arrangement of the modules within the regular polyhedral grid.
Journal ArticleDOI
High resolution flow characterization in Bio-MEMS
TL;DR: In this article, a micro-sensor compatible with Bio-MEMS applications for wide-range thermal flow rate measurements in liquids is introduced, based on the applied materials and geometry, the sensor allows an outstanding resolution at minimum thermal crosstalk, enabling flow rate measurement down to 100 μg/h in water, i.e. 100 nl/h.
Journal ArticleDOI
Simultaneous thermal conductivity and diffusivity sensing in liquids using a micromachined device
TL;DR: In this paper, a micromachined device is applied to characterize the thermal transport properties of various liquids by means of sinusoidal excitation of a heater structure placed on a membrane and recording the resulting temperature at a specified distance using integrated germanium thermistors.
Journal ArticleDOI
Thermal characterization of liquids and polymer thin films using a microcalorimeter
Yuyan Zhang,Srinivas Tadigadapa +1 more
TL;DR: In this paper, an integrated microfluidic thermal sensor that can be used to characterize the thermal properties of nanoliter quantities of fluids and polymer thin films is presented, which consists of a polycrystalline silicon (polysilicon) heater located in close proximity to the hot junctions of p+-poly-silicon/gold microthermopiles fabricated on a thermally isolated membrane.
Journal ArticleDOI
MEMS-Based Smart Gas Metering for Internet of Things
TL;DR: This work proposes an innovative mechanism to compensate the errors caused by different types of natural gases on the sensor’s reading, and implements and evaluates the proposed gas metering technique in various Internet of Things systems, including industrial flow metering, gas meetering in smart home, and gas meetingering in low-power wide-area networks.
References
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Proceedings ArticleDOI
X-ray microcalorimeters with germanium-resistance thermometers
Simon E. Labov,Eric H. Silver,Timothy E. Pfafman,Yolanda C. Wai,Jeffrey W. Beeman,Fred S. Goulding,Don A. Landis,Norman W. Madden,Eugene E. Haller +8 more
TL;DR: In this article, the x-ray microcalorimeter is divided into two components, a thermal sensor and an xray absorber, and the thermal sensor is attached to a thin xray absorbing material such as niobium.