Biomedical Engineering Reference
In-Depth Information
52. Kopp MU, de Mello AJ et al (1998) Chemical amplification: continuous-flow PCR on a
chip. Science 280(5366):1046-1048
53. Krishnamoorthy G, Carlen ET et al (2009) Integrated electrokinetic sample focusing and
surface plasmon resonance imaging system for measuring biomolecular interactions. Anal
Chem 81(5):1957-1963
54. Kuhn P, Eyer K et al (2011) A Microfluidic vesicle screening platform: monitoring the lipid
membrane permeability of tetracyclines. Anal Chem 83(23):8877-8885
55. Lee BS, Lee J-N et al (2009) A fully automated immunoassay from whole blood on a disc.
Lab Chip 9(11):1548-1555
56. Li X, Tian JF et al (2010) Thread as a versatile material for low-cost microfluidic
diagnostics. Acs Appl Mater Interfaces 2(1):1-6
57. Liu H, Crooks RM (2011) Three-dimensional paper microfluidic devices assembled using
the principles of origami. J Am Chem Soc 133(44):17564-17566
58. Liu XY, Cheng CM, et al (2011) A portable microfluidic paper-based device for ELISA.
IEEE 24th international conference on micro electro mechanical systems
59. Lombardi D, Dittrich PS (2010) Advances in microfluidics for drug discovery. Expert Opin
Drug Discov 5(11):1081-1094
60. Madou M (1997) Fundamentals of Microfabrication. CRC Press, New York
61. Madou MJ, Lee LJ et al (2001) Design and fabrication of CD-like microfluidic platforms for
diagnostics: microfluidic functions. Biomed Microdevices 3(3):245-254
62. Madou M, Zoval J et al (2006) Lab on a CD. Annu Rev Biomed Eng 8:601-628
63. Manz A, Graber N et al (1990) Miniaturized total chemical-analysis systems-a novel
concept for chemical sensing. Sens Actuators B-Chem 1(1-6):244-248
64. Mark D, Haeberle S et al (2010) Microfluidic lab-on-a-chip platforms: requirements,
characteristics and applications. Chem Soc Rev 39(3):1153-1182
65. Martinez AW, Phillips ST et al (2007) Patterned paper as a platform for inexpensive, low-
volume, portable bioassays. Angew Chem Int Ed 46(8):1318-1320
66. Martinez AW, Phillips ST, et al (2008) ''Three-dimensional microfluidic devices fabricated
in layered paper and tape.'' Proc Natl Acad Sci 105(50):19606-19611
67. Martinez AW, Phillips ST et al (2009) Diagnostics for the developing world: microfluidic
paper-based analytical devices. Anal Chem 82(1):3-10
68. McDonald
JC,
Duffy
DC
et
al
(2000)
Fabrication
of
microfluidic
systems
in
poly(dimethylsiloxane). Electrophoresis 21(1):27-40
69. Miller
E,
Ng
A
et
al
(2011)
A
digital
microfluidic
approach
to
heterogeneous
immunoassays. Anal Bioanal Chem 399(1):337-345
70. Moon S, Keles HO et al (2009) Integrating microfluidics and lensless imaging for point-of-
care testing. Biosens Bioelectron 24(11):3208-3214
71. Myers FB, Lee LP (2008) Innovations in optical microfluidic technologies for point-of-care
diagnostics. Lab Chip 8(12):2015-2031
72. Nagrath S, Sequist LV et al (2007) ''Isolation of rare circulating tumour cells in cancer
patients by microchip technology.'' Nature 450(7173):1235-U1210
73. Ng AHC, Uddayasankar U et al (2010) Immunoassays in microfluidic systems. Anal
Bioanal Chem 397(3):991-1007
74. Olthuis W, Van Der Schoot BH et al (1989) A dipstick sensor for coulometric acid-base
titrations. Sens Actuators 17(1-2):279-283
75. Osborn JL, Lutz B et al (2010) Microfluidics without pumps: reinventing the T-sensor and
H-filter in paper networks. Lab Chip 10(20):2659-2665
76. Ozcan A, Demirci U (2008) Ultra wide-field lens-free monitoring of cells on-chip. Lab Chip
8(1):98-106
77. Pang S, Han C et al (2011) Fluorescence microscopy imaging with a fresnel zone plate array
based optofluidic microscope. Lab Chip 11(21):3698-3702
78. Pang W, Zhao H, et al (2012) ''Piezoelectric microelectromechanical resonant sensors for
chemical and biological detection.'' Lab Chip 12(1):29-44
