Issue 45, 2017, Issue in Progress
From the journal:

RSC Advances

A valve-free 2D concentration gradient generator

Jingxuan Tian,a   Yibo Gao,ab   Bingpu Zhou,c   Wenbin Cao,a   Xiaoxiao Wua  and  Weijia Wen ORCID logo *a  

* Corresponding authors

a Department of Physics, The Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, China
E-mail: phwen@ust.hk

b Environmental Science Programs, Hong Kong University of Science and Technology, Clear Water Bay, Kowloon, Hong Kong, China

c Institute of Applied Physics and Materials Engineering, Faculty of Science and Technology, University of Macau, Avenida da Universidade, Taipa, Macau, China

Abstract

We report a concentration gradient generator featuring valve-free and simultaneous two-dimensional (2D) concentration generation. Each analyte is first diluted by a 1D gradient generator to five different concentrations and then directed into different chambers to generate combinations of different concentrations. The chip consists of three layers, which realizes a 3D fluid path, forming a skywalk structure that allows two perpendicular channels to cross each other in different layers. In this way, this chip could get rid of the pneumatic actuated valves (PAVs) or complicated channel designs that are conventionally adopted in controlling the infusion of multi-analytes. We believe that this design, which makes the chip independent of cumbersome external apparatus in controlling multi-analytes infusion, may potentially benefit the process of making microfluidic chips a portable and cost-effective product.

Graphical abstract: A valve-free 2D concentration gradient generator

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Article information

DOI
https://doi.org/10.1039/C7RA02139A
Article type
Paper
Submitted
21 Feb 2017
Accepted
09 May 2017
First published
25 May 2017
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2017,7, 27833-27839

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A valve-free 2D concentration gradient generator

J. Tian, Y. Gao, B. Zhou, W. Cao, X. Wu and W. Wen, RSC Adv., 2017, 7, 27833 DOI: 10.1039/C7RA02139A

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