Issue 22, 2012
From the journal:

Lab on a Chip

Programmable microfluidic synthesis of spectrally encoded microspheres

R. E. Gerver,ab   R. Gómez-Sjöberg,cd   B. C. Baxter,be   K. S. Thorn,c   P. M. Fordyce,bc   C. A. Diaz-Botia,d   B. A. Helmse  and  J. L. DeRisi*bc  

* Corresponding authors

a UC San Francisco/UC Berkeley Joint Graduate Group in Bioengineering, San Francisco, CA, USA

b Howard Hughes Medical Institute, Chevy Chase, MD, USA

c Department of Biochemistry and Biophysics, University of California San Francisco, San Francisco, CA, USA
E-mail: joe@derisilab.ucsf.edu

d Engineering Division, Lawrence Berkeley National Laboratory, One Cyclotron Road, Berkeley, CA, USA

e The Molecular Foundry, Lawrence Berkeley National Laboratory, One Cyclotron Road, Berkeley, CA, USA

Abstract

Spectrally encoded fluorescent beads are an attractive platform for assay miniaturization and multiplexing in the biological sciences. Here, we synthesize hydrophilic PEG–acrylate polymer beads encoded with lanthanide nanophosphors using a fully automated microfluidic synthesis device. These beads are encoded by including varying amounts of two lanthanide nanophosphors relative to a third reference nanophosphor to generate 24 distinct ratios. These codes differ by less than 3% from their target values and can be distinguished from each other with an error rate of <0.1%. The encoded bead synthesis strategy we have used is readily extensible to larger numbers of codes, potentially up to millions, providing a new platform technology for assay multiplexing.

Graphical abstract: Programmable microfluidic synthesis of spectrally encoded microspheres

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Article information

DOI
https://doi.org/10.1039/C2LC40699C
Article type
Paper
Submitted
20 Jun 2012
Accepted
21 Sep 2012
First published
25 Sep 2012
This article is Open Access

Lab Chip, 2012,12, 4716-4723

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Programmable microfluidic synthesis of spectrally encoded microspheres

R. E. Gerver, R. Gómez-Sjöberg, B. C. Baxter, K. S. Thorn, P. M. Fordyce, C. A. Diaz-Botia, B. A. Helms and J. L. DeRisi, Lab Chip, 2012, 12, 4716 DOI: 10.1039/C2LC40699C

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