In this report, we demonstrate a simple and low cost method that can be reproducibly used for fabrication of microfluidic devices in nitrocellulose. The fluidic patterns are created via a laser-based direct-write technique that induces polymerisation of a photo-polymer previously impregnated in the nitrocellulose. The resulting structures form hydrophobic barriers that extend through the thickness of the nitrocellulose and define an interconnected hydrophilic fluidic-flow pattern. Our experimental results show that using this method it is possible to achieve microfluidic channels with lateral dimensions of ∼100 μm using hydrophobic barriers that form the channel walls with dimensions of ∼60 μm; both of these values are considerably smaller than those that can be achieved with other current techniques used in the fabrication of nitrocellulose-based fluidic devices. A simple grid patterned nitrocellulose device was then used for the detection of C-reactive protein via a sandwich enzyme-linked immunosorbent assay, which served as a useful proof-of-principle experiment.

1.
G. M.
Whitesides
, “
The origins and the future of microfluidics
,”
Nature
442
,
368
373
(
2006
).
2.
G. M.
Whitesides
, “
Cool, or simple and cheap? Why not both?
,”
Lab Chip
13
,
11
13
(
2013
).
3.
A. W.
Martinez
,
S. T.
Phillips
,
M. J.
Butte
, and
G. M.
Whitesides
, “
Patterned paper as a platform for inexpensive, low-volume, portable bioassays
,”
Angew. Chem., Int. Ed.
46
,
1318
1320
(
2007
).
4.
A. W.
Martinez
,
S. T.
Phillips
,
E.
Carrilho
,
S. W.
Thomas
,
H.
Sindi
, and
G. M.
Whitesides
, “
Simple telemedicine for developing regions: Camera phones and paper-based microfluidic devices for real-time, off-site diagnosis
,”
Anal. Chem.
80
,
3699
3707
(
2008
).
5.
Y.
Lu
,
W. W.
Shi
,
L.
Jiang
,
J. H.
Qin
, and
B. C.
Lin
, “
Rapid prototyping of paper-based microfluidics with wax for low-cost, portable bioassay
,”
Electrophoresis
30
,
1497
1500
(
2009
).
6.
J. L.
Tonkinson
and
B. A.
Stillman
, “
Nitrocellulose: A tried and true polymer finds utility as a post-genomic substrate
,”
Front. Biosci.
7
,
C1
C12
(
2002
).
7.
A. W.
Martinez
,
S. T.
Phillips
,
B. J.
Wiley
,
M.
Gupta
, and
G. M.
Whitesides
, “
FLASH: A rapid method for prototyping paper-based microfluidic devices
,”
Lab Chip
8
,
2146
2150
(
2008
).
8.
J. L.
Delaney
,
C. F.
Hogan
,
J. F.
Tian
, and
W.
Shen
, “
Electrogenerated chemiluminescence detection in paper-based microfluidic sensors
,”
Anal. Chem.
83
,
1300
1306
(
2011
).
9.
X.
Li
,
J. F.
Tian
,
G.
Garnier
, and
W.
Shen
, “
Fabrication of paper-based microfluidic sensors by printing
,”
Colloid Surf. Bs
76
,
564
570
(
2010
).
10.
E.
Carrilho
,
A. W.
Martinez
, and
G. M.
Whitesides
, “
Understanding wax printing: A simple micropatterning process for paper-based microfluidics
,”
Anal. Chem.
81
,
7091
7095
(
2009
).
11.
V.
Leung
,
A. A. M.
Shehata
,
C. D. M.
Filipe
, and
R.
Pelton
, “
Streaming potential sensing in paper-based microfluidic channels
,”
Colloid Surf. A
364
,
16
18
(
2010
).
12.
C. D.
Souza
,
O. C.
Braga
,
I. C.
Vieira
, and
A.
Spinelli
, “
Electroanalytical determination of sulfadiazine and sulfamethoxazole in pharmaceuticals using a boron-doped diamond electrode
,”
Sens. Actuator, B
135
,
66
73
(
2008
).
13.
X.
Li
,
J. F.
Tian
,
T.
Nguyen
, and
W.
Shen
, “
Paper-based microfluidic devices by plasma treatment
,”
Anal. Chem.
80
,
9131
9134
(
2008
).
14.
E.
Fu
,
P.
Kauffman
,
B.
Lutz
, and
P.
Yager
, “
Chemical signal amplification in two-dimensional paper networks
,”
Sens. Actuator, B
149
,
325
328
(
2010
).
15.
E. M.
Fenton
,
M. R.
Mascarenas
,
G. P.
Lopez
, and
S. S.
Sibbett
, “
Multiplex lateral-flow test strips fabricated by two-dimensional shaping
,”
ACS Appl. Mater. Interfaces
1
,
124
129
(
2009
).
16.
A. K.
Yetisen
,
M. S.
Akram
, and
C. R.
Lowe
, “
Paper-based microfluidic point-of-care diagnostic devices
,”
Lab Chip
13
,
2210
2251
(
2013
).
17.
X.
Li
,
D. R.
Ballerini
, and
W.
Shen
, “
A perspective on paper-based microfluidics: Current status and future trends
,”
Biomicrofluidics
6
(1),
011301
(
2012
).
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