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Flexible transducer for Field Effect Transistor development
Flexible and disposable device for the field-effect transistor (FET) with band / gap dimensions of 30 µm. The coplanar design of this integrated device makes it easy to use and reduces the sample required for the experiment / allows working with small sample volumes.
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Interdigitated Gold Electrodes over ceramic substrate
Gold interdigitated electrodes made on ceramic substrate, with dimension for bands/gaps of 200µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies.
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Interdigitated Gold Electrodes with Platinum heater
Gold interdigitated electrodes made on ceramic substrate, with bands/gaps dimensions of 200µm. One side consisting of one Interdigitated Gold Electrode and other side consisting of a Platinum heater.
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Interdigitated gold Electrode over white plastic substrate
Gold interdigitated electrodes made on white flexible plastic substrate with dimension for bands/gaps of 50 µm. The interdigitated configuration enhances sensibility and detection limits.
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Interdigitated gold Electrode over transparent plastic substrate
Gold interdigitated electrodes made on transparent flexible plastic substrate with dimension for bands/gaps of 50 µm. The interdigitated configuration enhances sensibility and detection limits.
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Interdigitated palladium Electrode over white plastic substrate
Palladium interdigitated electrodes made on white flexible plastic substrate with dimension for bands/gaps of 50 µm. The interdigitated configuration enhances sensibility and detection limits.
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Interdigitated silver Electrode over transparent plastic substrate
Silver interdigitated electrodes made on transparent flexible plastic substrate with dimension for bands/gaps of 50 µm. The interdigitated configuration enhances sensibility and detection limits. |
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Interdigitated ITO Electrode over transparent plastic substrate
ITO interdigitated electrodes made on transparent flexible plastic substrate with dimension for bands/gaps of 50 µm. The interdigitated configuration enhances sensibility and detection limits. |
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Gold interdigitated electrodes over transparent flexible plastic substrate
Gold interdigitated electrodes made on transparent flexible plastic substrate with dimension for bands/gaps of 100 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies.
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ITO interdigitated electrodes over transparent flexible plastic substrate
ITO interdigitated electrodes made on transparent flexible plastic substrate with dimension for bands/gaps of 100 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies.
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Silver interdigitated electrodes over transparent flexible plastic substrate
Silver interdigitated electrodes made on transparent flexible plastic substrate with dimension for bands/gaps of 100 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies.
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Gold interdigitated electrodes over flexible plastic substrate
Gold interdigitated electrodes made on flexible plastic substrate with dimension for bands/gaps of 100 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies.
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Palladium interdigitated electrodes over flexible plastic substrate
Palladium interdigitated electrodes made on flexible plastic substrate with dimension for bands/gaps of 100 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies.
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Multi-interdigitated gold Electrodes over white plastic substrate
These multi-electrodes are formed by four interdigitated gold electrodes in one piece. The interdigitated configuration improves the detection limits and sensitivity. The dimensions of the bands/gaps are 20 μm.
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Multi-interdigitated gold Electrodes over white plastic substrate
These multi-electrodes are formed by four interdigitated gold electrodes in one piece. The interdigitated configuration improves the detection limits and sensitivity. The dimensions of the bands/gaps are 30 μm.
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Multi-interdigitated gold Electrodes over white plastic substrate
These multi-electrodes are formed by four interdigitated gold electrodes in one piece. The interdigitated configuration improves the detection limits and sensitivity. The dimensions of the bands/gaps are 40 μm.
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Multi-interdigitated gold Electrodes over white plastic substrate
These multi-electrodes are formed by four interdigitated gold electrodes in one piece. The interdigitated configuration improves the detection limits and sensitivity. The dimensions of the bands/gaps are 50 μm. |
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Multi-interdigitated gold Electrodes over white plastic substrate
These multi-electrodes are formed by four interdigitated gold electrodes in one piece. The interdigitated configuration improves the detection limits and sensitivity. The dimensions of the bands/gaps are 60 μm. |
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Multi-interdigitated gold Electrodes over white plastic substrate
These multi-electrodes are formed by four interdigitated gold electrodes in one piece. The interdigitated configuration improves the detection limits and sensitivity. The dimensions of the bands/gaps are 70 μm. |
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Interdigitated Gold Electrodes
Gold interdigitated electrodes made on a glass substrate, with two available dimensions for bands/gaps: 5 µm and 10 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies. |
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Interdigitated Platinum Electrodes
Platinum interdigitated electrodes made on a glass substrate, with two available dimensions for bands/gaps: 5 µm and 10 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies. |
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Interdigitated Copper Electrodes
Copper interdigitated electrodes made on a glass substrate, with dimensions for bands/gaps of 5 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies. |
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Interdigitated Silver Electrodes
Silver interdigitated electrodes made on a glass substrate, with dimensions for bands/gaps of 5 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies. |
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Interdigitated Concentric Gold Electrodes
Gold interdigitated Concentric electrodes made on a glass substrate, with bands/gaps of 10 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies.
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Interdigitated Concentric Platinum Electrodes
Platinum interdigitated Concentric electrodes made on a glass substrate, with bands/gaps of 10 µm. They allow working with low volumes of sample, being suitable for decentralized assays, to develop specific (bio)sensors and other electrochemical studies. |
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Gold MicroElectrodes Arrays
Gold MicroElectrodes Array composed of an auxiliary, reference and working electrode all made in gold. The working electrode is a metallic surface made of gold covered by a SU-8 resin microperforated, defining microholes arrays of 10 µm. These microarray electrodes exhibit enhanced diffusion, sensitivity and detection limits. |
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Platinum MicroElectrodes Arrays
Platinum MicroElectrodes Array composed of an auxiliary, reference and working electrode all made in platinum. The working electrode is a metallic surface made of platinum covered by a SU-8 resin microperforated, defining microholes arrays of 10 µm. These microarray electrodes exhibit enhanced diffusion, sensitivity and detection limits. |
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Gold Band MicroElectrodes Arrays
Gold Band MicroElectrodes Arrays are composed of an auxiliary, reference and working electrode all made in gold. The working electrode is a metallic surface made of gold covered by a SU-8 resin microperforated, defining an array of bands of 10 µm width. These microarray electrodes exhibit enhanced diffusion, sensitivity and detection limits. |
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Platinum Band MicroElectrodes Arrays
Platinum Band MicroElectrodes Arrays are composed of an auxiliary, reference and working electrode all made in platinum. The working electrode is a metallic surface made of platinum covered by a SU-8 resin microperforated, defining an array of bands of 10 µm width. These microarray electrodes exhibit enhanced diffusion, sensitivity and detection limits. |
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Interdigitated
Gold Electrodes with Auxiliary and Reference Electrodes
Interdigitated Gold electrodes with two working electrodes, an auxiliary and a reference electrodes, all manufactured in gold on a glass substrate. The working electrodes are composed of 52 pairs of bands, with a band gap and a band width of 10 µm. |
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Interdigitated
Platinum Electrodes with Auxiliary and Reference Electrodes
Interdigitated Platinum electrodes with two working electrodes, an auxiliary and a reference electrode, all manufactured in platinum on a glass substrate. The working electrodes are composed of 52 pairs of bands, with a band gap and a band width of 10 µm. |
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