In

In Temsirolimus cell line quadruple electrodes, the target bacteria can be concentrated at one spot

using a negative DEP force to improve detection efficiency even if the bacterial concentration is low. A circular metallic shield was also patterned in the middle region between the quadruple electrodes to reduce the fluorescence noise that could be generated by the laser light penetration of the glass substrate. A 200/35-nm Au/Ti layer was deposited on the glass slides (76 mm × 26 mm and 1 mm thick) using an electro-beam evaporator (JST-10 F, JEOL Ltd., Akishima-shi, Japan). A positive photoresist (AZ 5214, MicroChemicals, Ulm, Germany) was spin-coated on the deposited metal layer, and standard photolithography techniques were employed to determine the designed geometries on the metal layer. After photolithography, wet metal

etching was used for microelectrode patterning, and the photoresist was then removed using acetone to complete the microelectrode fabrication. The bacteria/BC/bacteria-BC suspension sample was placed on top of a quadruple electrode in droplet form, and LY2603618 chemical structure the motion of the cells was observed under an applied AC field. The DEP behaviors were first characterized by varying the AC frequencies from 100 kHz to 1.2 MHz at a fixed voltage of 15 Vp-p to map the DEP properties. The trapping location of bacteria on the electrode edge or in the middle region between the

electrodes indicated whether the bacteria exhibited positive or negative DEP at that applied frequency. Sample preparation Five-micrometer latex particles (Sigma-Aldrich, St. Louis, MO, USA) were used to form the nanopores via a dielectrophoretic microparticle assembly. Fluorescent latex particles (Sigma-Aldrich, St. Louis, MO, USA) with a diameter of 20 nm were used for the purpose of observing the nanoDEP mechanism. Five-micrometer latex particles (without fluorescence) and 20-nm fluorescent particles suspended in deionized water (DI) water at concentrations of 5 × 106 Thiamet G and 1 × 108 particles/ml, respectively, were used for validation of the nanoDEP mechanism of the simple chip. Staphylococcus aureus (BCRC 14957, Gram positive) and Pseudomonas aeruginosa (ATCC 27853, Gram negative) were cultured on tryptic soy agar (TSA) at 35°C. An isotonic solution, a 300-mM sucrose solution with a low selleck chemicals llc conductivity (approximately 2 μS/cm), was used to adjust the conductivity of the experimental buffer solution. To study the separation and detection of the bacteria from the blood cells, a 1× phosphate-buffered saline (PBS) buffer diluted with the 300-mM sucrose solution in a 1:15 ratio was used for the experimental buffer with a final conductivity of 1 mS/cm, owing to the fact that blood cells are highly sensitive to the osmotic pressure of a solution.

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