Implementation of Synchronous Micromotor in Developing Integrated Microfluidic Systems

Al-Halhouli, Ala’aldeen; Demming, Stefanie; Waldschik, A.; Büttgenbach, S.

doi:10.3390/mi5030442

Cited by 23 publications

(15 citation statements)

References 23 publications

(18 reference statements)

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“…Due to the rapid increase in demanding biomedical/biotechnological applications, continuous efforts have been directed towards developing novel and efficient microfluidic devices (i.e., pumps, sensors, mixers, and bioreactors) [1][2][3]. The flow in such devices is mainly laminar [4].…”

Section: Introductionmentioning

confidence: 99%

Passive Micromixers with Interlocking Semi-Circle and Omega-Shaped Modules: Experiments and Simulations

et al. 2015

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This study presents experiments and computational simulations of single-layer passive micromixer designs. The proposed designs consist of chains of interlocking semicircles and omega-shaped mixing modules. The performance of the new designs is compared with the concentric spiral channel configuration. The micromixers are intended to be integrated into a lab on chip (LOC) micro-system that operates under continuous flow conditions. The purpose behind the multi-curvature in these designs is the introduction of Dean vortices in addition to molecular diffusion in order to enhance the mixing performance. The micromixers were fabricated in PDMS (Polydimethylsiloxane) and bonded to a glass substrate. A three-dimensional computational model of micromixers was carried out using Fluent ANSYS. In experiments, the mixing of a 1 g/L fluorescein isothiocyanate diluted in distilled water was observed and photographed using a charge-coupled device (CCD) microscopic camera. The obtained images were processed to determine the mixing intensity at different Reynolds numbers. The standard deviation (σ) of the fluorescence indicates the mixing completeness, which was calculated along the width of the channel at various locations downstream from the channel inlet. The value of σ = 0.5 indicates unmixed streams and 0 is for complete mixing. It is found that the two new designs have a standard deviation of nearly 0.05. Additionally, complete mixing was observed at the channel outlet as demonstrated by OPEN ACCESSMicromachines 2015, 6 954 the fluorescence images and the numerical results. However, the location of complete mixing at different positions depends on the Reynolds number, which varies between 0.01 and 50. Good agreement was found between the experiment and the numerical results. A correlation to predict the length scale where complete mixing can be achieved is given in terms of the radius of curvature, the mixing module, and the Reynolds number.

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Section: Introductionmentioning

confidence: 99%

Passive Micromixers with Interlocking Semi-Circle and Omega-Shaped Modules: Experiments and Simulations

et al. 2015

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“…A pump rate of 150 mL/min (H2O) at 150 rpm was achieved. The spiral channel viscous micropump [34,35] comprises a rotating spiral channel disk, which is driven by the synchronous micromotor, a flat cover, and fluid inlet and outlet ports. The rotating spiral channel disk (Figure 7b) has a diameter of 4.5 mm.…”

Section: Applicationsmentioning

confidence: 99%

“…The stator is covered with the reactor vessel (height 550 μm) made of PDMS (polydimethylsiloxane). The rotor, which possesses flat panels at its perimeter and resembles a macro-scale disk stirrer, contains alternating magnets with axial magnetization [35]. First cultivation experiments proved successful working of the microbioreactor over a time period of approximately 10 h with constant stirring.…”

Section: Applicationsmentioning

confidence: 99%

Electromagnetic Micromotors—Design, Fabrication and Applications

Büttgenbach

2014

Micromachines

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Abstract:Microactuators have become essential elements of microelectromechanical systems, for example, for positioning purposes and for fluid-handling tasks in microfluidic systems. UV depth lithography and other new micromachining technologies, which have been developed since the 1990s, have initiated extensive investigations of electromagnetic microactuators, which are characterized by high forces, large deflections, low driving voltages resulting from low input impedances and robustness under harsh environments. This paper reviews the comprehensive research on the design, fabrication and application of electromagnetic micromotors performed in our laboratory over the past years.

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“…Accordingly, many novel devices including: pumps, bioreactors, and biosensors have been published recently [1][2][3][4].…”

Section: Introductionmentioning

confidence: 99%

Fabrication and testing of a photonic ethanol biosensor

Al-Halhouli

During

Alahmad

et al. 2015

2015 16th International Conference on Research and Education in Mechatronics (REM)

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This paper introduces an optical based ethanol biosensor fabricated on polydimethylsiloxane (PDMS). The sensor consists of a detection chamber that includes fluid distribution channels, and micro-lenses with self-alignment structures for fiber optics positioning. The sensor design allows optical detection of ethanol concentrations based on co immobilization of alcohol oxidase (AOX) and horseradish peroxidase (HRP) directly on PDMS under continuous flow conditions. For that, an immobilization processe based on surface hydrophilization, salinization and enzymes co-immobilization was considered and tested. Experimental results showed that the sensor is able to detect ethanol concentrations up to 15 mM with a standard deviation of 0.97. Such results are very promising for the application in optical LOC systems used for online analysis.

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Implementation of Synchronous Micromotor in Developing Integrated Microfluidic Systems

Cited by 23 publications

References 23 publications

Passive Micromixers with Interlocking Semi-Circle and Omega-Shaped Modules: Experiments and Simulations

Passive Micromixers with Interlocking Semi-Circle and Omega-Shaped Modules: Experiments and Simulations

Electromagnetic Micromotors—Design, Fabrication and Applications

Fabrication and testing of a photonic ethanol biosensor

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