eprintid: 2971
rev_number: 10
eprint_status: archive
userid: 270
dir: disk0/00/00/29/71
datestamp: 2018-06-08 08:39:14
lastmod: 2018-06-08 08:39:14
status_changed: 2018-06-08 08:39:14
type: article
succeeds: 2944
metadata_visibility: show
creators_name: Do, Loc Quang
creators_name: Bui, Tung Thanh
creators_name: Tran, Ha Thi Thuy
creators_name: Katsuya, Kikuchi
creators_name: Aoyagi, Aasahiro
creators_name: Chu, Duc Trinh
creators_id: locdq@hus.edu.vn
creators_id: tungbt@vnu.edu.vn
creators_id: thuyhadt@gmail.com
creators_id: k.kikuchi@aist.go.jp
creators_id: m-aoyagi@aist.go.jp
creators_id: trinhcd@vnu.edu.vn
title: Fluidic Platform with Embedded Differential Capacitively Coupled Contactless Conductivity Detector for Micro-Object Sensing
ispublished: pub
subjects: isi
divisions: fac_fet
abstract: In this paper, we present a microfluidic platform with differential capacitively coupled contactless conductivity detection (DC4D) technique for microparticle detection. The microfluidic platform is formed by bonding PDMS channel to glass substrate. The proposed microfluidic sensor embedded in the microchannel consists of three adjacent electrodes. These electrodes are arranged to form differential coplanar capacitor structures to provide high sensitivity. The differential capacitance is changed when a microsized object crosses the sensing area in the microfluidic channel. This microfluidic system with the novel sensing design based on DC4D technique provides a platform for detection the presence of an object as well as its electrical property.
date: 2018
date_type: published
publisher: InderScience
official_url: https://doi.org/10.1504/IJNT.2018.089543
full_text_status: none
publication: International Journal of Nanotechnology
volume: 15
number: 1/2/3
pagerange: 24-38
refereed: TRUE
issn: 1475-7435
citation:   Do, Loc Quang and Bui, Tung Thanh and Tran, Ha Thi Thuy and Katsuya, Kikuchi and Aoyagi, Aasahiro and Chu, Duc Trinh  (2018) Fluidic Platform with Embedded Differential Capacitively Coupled Contactless Conductivity Detector for Micro-Object Sensing.  International Journal of Nanotechnology, 15  (1/2/3).   pp. 24-38.  ISSN 1475-7435