Ghent University Academic Bibliography |

Ghent University Academic Bibliography

Matches in Ghent University Academic Bibliography for { <https://biblio.ugent.be/publication/01GMD2SDKGCX802AT2V6AR98M3> ?p ?o. }

Showing items 1 to 24 of 24 with 100 items per page.

01GMD2SDKGCX802AT2V6AR98M3 classification A1.
01GMD2SDKGCX802AT2V6AR98M3 date "2020".
01GMD2SDKGCX802AT2V6AR98M3 language "eng".
01GMD2SDKGCX802AT2V6AR98M3 type journalArticle.
01GMD2SDKGCX802AT2V6AR98M3 subject "Technology and Engineering".
01GMD2SDKGCX802AT2V6AR98M3 doi "10.1088/1361-6501/ab9937".
01GMD2SDKGCX802AT2V6AR98M3 issn "0957-0233".
01GMD2SDKGCX802AT2V6AR98M3 issn "1361-6501".
01GMD2SDKGCX802AT2V6AR98M3 issue "11".
01GMD2SDKGCX802AT2V6AR98M3 volume "31".
01GMD2SDKGCX802AT2V6AR98M3 abstract "Microfluidic devices present new opportunities for a wide range of applicationsin which the temperature control of nanoliter droplets is required. Due to the inherent size of the employed miniature volumes, several challenges exist, related to temperature measurements. In this work, we present a non-contact and label-free dielectric-based temperature measurement technique. A capacitive sensor transduces the temperature-dependent dielectric properties into a capacitive value. With a post-processing tuned matching network, the reflection coefficient of the capacitive sensor is minimized at a specific frequency, directly related to the sample temperature. The system is calibrated via a water-only calibration method, using two calibration values. A measurement accuracy of +/- 0.24 degrees C is achieved, with an offset of -0.19 degrees C, over a temperature range from 20 degrees C to 55 degrees C. The potential for simultaneous use of the proposed sensor as a microwave heater, gives us a dual-purpose device that minimizes the footprint of the chip, and thus its cost, while also reducing the number of electrical connections to the chip.".
01GMD2SDKGCX802AT2V6AR98M3 author 83442B6E-B25E-11E6-B104-2D2FD0AF0289.
01GMD2SDKGCX802AT2V6AR98M3 author urn:uuid:136d1da4-1a35-4103-9859-a352dd5d29b1.
01GMD2SDKGCX802AT2V6AR98M3 author urn:uuid:78a21d62-3c93-4b0c-989a-adc8ee1f5bbc.
01GMD2SDKGCX802AT2V6AR98M3 author urn:uuid:8ef4d47b-39b8-44c9-8d1d-115c37c7f32c.
01GMD2SDKGCX802AT2V6AR98M3 author urn:uuid:c9256bcb-371c-4e48-90b7-18173af748eb.
01GMD2SDKGCX802AT2V6AR98M3 author urn:uuid:f9ddcaf6-2c4c-4341-9aef-f014b83500f3.
01GMD2SDKGCX802AT2V6AR98M3 dateCreated "2022-12-16T09:03:36Z".
01GMD2SDKGCX802AT2V6AR98M3 dateModified "2024-07-09T07:42:57Z".
01GMD2SDKGCX802AT2V6AR98M3 name "Dielectric-based temperature sensing of nanoliter water samples with a post-processing tuned matching network".
01GMD2SDKGCX802AT2V6AR98M3 pagination urn:uuid:b3df1162-ab68-419e-ad4e-c29771e821f7.
01GMD2SDKGCX802AT2V6AR98M3 sameAs LU-01GMD2SDKGCX802AT2V6AR98M3.
01GMD2SDKGCX802AT2V6AR98M3 sourceOrganization urn:uuid:f79a2b10-2759-4459-a298-2e5810ca8d69.
01GMD2SDKGCX802AT2V6AR98M3 type A1.