eprintid: 3844
rev_number: 8
eprint_status: archive
userid: 270
dir: disk0/00/00/38/44
datestamp: 2019-12-19 03:14:57
lastmod: 2019-12-19 03:14:57
status_changed: 2019-12-19 03:14:57
type: conference_item
metadata_visibility: show
creators_name: Do, Quang Loc
creators_name: Vu, Quoc Tuan
creators_name: Nguyen, Nhu Cuong
creators_name: Nguyen, Thu Hang
creators_name: Tran, Thanh Hang
creators_name: Bui, Thanh Tung
creators_name: Chu, Duc Trinh
creators_id: locdq@gmail.com
creators_id: vqtuan0211@gmail.com
creators_id: cuongnn241@gmail.com
creators_id: hang021197@gmail.com
creators_id: Along with the rapid development of microfluidic systems and their integration into the point-of-care devices over the past decade, droplet microfluidic has emerged as an essential research area which is highly demanded in various research field such as l
creators_id: tungbt@vnu.edu.vn
creators_id: trinhcd@vnu.edu.vn
title: Development of A Flow Focusing Droplet Generation Microfluidic System Based on Rapidprototyping Technique
ispublished: pub
subjects: ElectronicsandComputerEngineering
divisions: cetr_uet
divisions: fac_fet
abstract: Along with the rapid development of microfluidic systems and their integration into the point-of-care devices over the past decade, droplet microfluidic has emerged as an essential research area which is highly demanded in various research field such as life science research, material synthesis and drug
discovery. In this paper, a microfluidic system based on microfluidic channel is developed to operate the
function of generating air bubble and fluidic droplet. Droplets are generated based on the flow focusing
droplet generator technique which can generate highly monodisperse droplets of varying sizes. The
proposed system is fabricated using rapid prototyping techniques with PDMS molding and printed board circuit. A numerical calculation was implemented to study and analyze the operation of the proposed
structure. The results from this study can be utilized as a versatile tool for widespread applications
especially in synthesis of microcapsule, microparticles, and microfibers applicable to pharmaceuticals, cosmetics, foods and other lab-on-a-chip applications.
date: 2019-11
date_type: published
full_text_status: none
pres_type: lecture
event_title: The 7th International Workshop on Nanotechnology and Application (IWNA 2019)
event_location: Phan Thiet
event_dates: 05-09 Nov. 2019
event_type: workshop
refereed: TRUE
citation:   Do, Quang Loc and Vu, Quoc Tuan and Nguyen, Nhu Cuong and Nguyen, Thu Hang and Tran, Thanh Hang and Bui, Thanh Tung and Chu, Duc Trinh  (2019) Development of A Flow Focusing Droplet Generation Microfluidic System Based on Rapidprototyping Technique.  In: The 7th International Workshop on Nanotechnology and Application (IWNA 2019), 05-09 Nov. 2019, Phan Thiet.