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Volume 7, Issue 4
July 2013
Issue Cover
All Issues
EISSN 1932-1058
In this Issue

PERSPECTIVES

Micro- and nanofluidic technologies for epigenetic profiling
Toshiki Matsuoka; Byoung Choul Kim; Christopher Moraes; Minsub Han; Shuichi Takayama
Biomicrofluidics 7, 041301 (2013) https://doi.org/10.1063/1.4816835
View articletitled, Micro- and nanofluidic technologies for epigenetic profiling
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REVIEW ARTICLES

Protein immobilization techniques for microfluidic assays
Dohyun Kim; Amy E. Herr
Biomicrofluidics 7, 041501 (2013) https://doi.org/10.1063/1.4816934
View articletitled, Protein immobilization techniques for microfluidic assays
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REGULAR ARTICLES

Microarray of non-connected gold pads used as high density electric traps for parallelized pairing and fusion of cells
Feriel S. Hamdi; Olivier Français; Frederic Subra; Elisabeth Dufour-Gergam; Bruno Le Pioufle
Biomicrofluidics 7, 044101 (2013) https://doi.org/10.1063/1.4813062
View articletitled, Microarray of non-connected gold pads used as high density electric traps for parallelized pairing and fusion of cells
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Sample preconcentration inside sessile droplets using electrowetting
Dileep Mampallil; Dhirendra Tiwari; Dirk van den Ende; Frieder Mugele
Biomicrofluidics 7, 044102 (2013) https://doi.org/10.1063/1.4815931
View articletitled, Sample preconcentration inside sessile droplets using electrowetting
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Isotachophoresis with emulsions
G. Goet; T. Baier; S. Hardt; A. K. Sen
Biomicrofluidics 7, 044103 (2013) https://doi.org/10.1063/1.4816347
View articletitled, Isotachophoresis with emulsions
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Coplanar electrowetting-induced stirring as a tool to manipulate biological samples in lubricated digital microfluidics. Impact of ambient phase on drop internal flow pattern
Laurent Davoust; Yves Fouillet; Rachid Malk; Johannes Theisen
Biomicrofluidics 7, 044104 (2013) https://doi.org/10.1063/1.4817006
View articletitled, Coplanar electrowetting-induced stirring as a tool to manipulate biological samples in lubricated digital microfluidics. Impact of ambient phase on drop internal flow pattern
Supplementary Material
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Microfluidic trapping of giant unilamellar vesicles to study transport through a membrane pore
T. Robinson; P. Kuhn; K. Eyer; P. S. Dittrich
Biomicrofluidics 7, 044105 (2013) https://doi.org/10.1063/1.4816712
View articletitled, Microfluidic trapping of giant unilamellar vesicles to study transport through a membrane pore
Supplementary Material
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Label-free viscosity measurement of complex fluids using reversal flow switching manipulation in a microfluidic channel
Yang Jun Kang; Jeongeun Ryu; Sang-Joon Lee
Biomicrofluidics 7, 044106 (2013) https://doi.org/10.1063/1.4816713
View articletitled, Label-free viscosity measurement of complex fluids using reversal flow switching manipulation in a microfluidic channel
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Microfluidic platform for isolating nucleic acid targets using sequence specific hybridization
Jingjing Wang; Kenneth Morabito; Jay X. Tang; Anubhav Tripathi
Biomicrofluidics 7, 044107 (2013) https://doi.org/10.1063/1.4816943
View articletitled, Microfluidic platform for isolating nucleic acid targets using sequence specific hybridization
Supplementary Material
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Extensional flow of hyaluronic acid solutions in an optimized microfluidic cross-slot device
S. J. Haward; A. Jaishankar; M. S. N. Oliveira; M. A. Alves; G. H. McKinley
Biomicrofluidics 7, 044108 (2013) https://doi.org/10.1063/1.4816708
View articletitled, Extensional flow of hyaluronic acid solutions in an optimized microfluidic cross-slot device
Supplementary Material
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Poly(vinyl alcohol)-heparin biosynthetic microspheres produced by microfluidics and ultraviolet photopolymerisation
Cara Young; Kester Rozario; Christophe Serra; Laura Poole-Warren; Penny Martens
Biomicrofluidics 7, 044109 (2013) https://doi.org/10.1063/1.4816714
View articletitled, Poly(vinyl alcohol)-heparin biosynthetic microspheres produced by microfluidics and ultraviolet photopolymerisation
Supplementary Material
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Selective dynamic concentration of peptides at poles of cation-selective nanoporous granules
Hsiao-Ping Chen; Chia-Chun Tsai; Hung-Meng Lee; Shau-Chun Wang; Hsueh-Chia Chang
Biomicrofluidics 7, 044110 (2013) https://doi.org/10.1063/1.4817492
View articletitled, Selective dynamic concentration of peptides at poles of cation-selective nanoporous granules
Supplementary Material
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Field tested milliliter-scale blood filtration device for point-of-care applications
Max M. Gong; Brendan D. MacDonald; Trung Vu Nguyen; Kinh Van Nguyen; David Sinton
Biomicrofluidics 7, 044111 (2013) https://doi.org/10.1063/1.4817792
View articletitled, Field tested milliliter-scale blood filtration device for point-of-care applications
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Adding reagent to droplets with controlled rupture of encapsulated double emulsions
Adam Sciambi; Adam R. Abate
Biomicrofluidics 7, 044112 (2013) https://doi.org/10.1063/1.4817793
View articletitled, Adding reagent to droplets with controlled rupture of encapsulated double emulsions
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Effects of non-Newtonian power law rheology on mass transport of a neutral solute for electro-osmotic flow in a porous microtube
Sourav Mondal; Sirshendu De
Biomicrofluidics 7, 044113 (2013) https://doi.org/10.1063/1.4817770
View articletitled, Effects of non-Newtonian power law rheology on mass transport of a neutral solute for electro-osmotic flow in a porous microtube
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Label-free electronic probing of nucleic acids and proteins at the nanoscale using the nanoneedle biosensor
Rahim Esfandyarpour; Mehdi Javanmard; Zahra Koochak; Hesaam Esfandyarpour; James S. Harris; Ronald W. Davis
Biomicrofluidics 7, 044114 (2013) https://doi.org/10.1063/1.4817771
View articletitled, Label-free electronic probing of nucleic acids and proteins at the nanoscale using the nanoneedle biosensor
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Simulation of malaria-infected red blood cells in microfluidic channels: Passage and blockage
Tenghu Wu; James J. Feng
Biomicrofluidics 7, 044115 (2013) https://doi.org/10.1063/1.4817959
View articletitled, Simulation of malaria-infected red blood cells in microfluidic channels: Passage and blockage
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High-throughput inertial particle focusing in a curved microchannel: Insights into the flow-rate regulation mechanism and process model
Nan Xiang; Hong Yi; Ke Chen; Dongke Sun; Di Jiang; Qing Dai; Zhonghua Ni
Biomicrofluidics 7, 044116 (2013) https://doi.org/10.1063/1.4818445
View articletitled, High-throughput inertial particle focusing in a curved microchannel: Insights into the flow-rate regulation mechanism and process model
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Fabrication of uniform multi-compartment particles using microfludic electrospray technology for cell co-culture studies
Zhou Liu (刘洲); Ho Cheung Shum (岑浩璋)
Biomicrofluidics 7, 044117 (2013) https://doi.org/10.1063/1.4817769
View articletitled, Fabrication of uniform multi-compartment particles using microfludic electrospray technology for cell co-culture studies
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Microfluidic rectifier based on poly(dimethylsiloxane) membrane and its application to a micropump
Yao-Nan Wang; Chien-Hsiung Tsai; Lung-Ming Fu; Lung-Kai Lin Liou
Biomicrofluidics 7, 044118 (2013) https://doi.org/10.1063/1.4818905
View articletitled, Microfluidic rectifier based on poly(dimethylsiloxane) membrane and its application to a micropump
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Vortex-aided inertial microfluidic device for continuous particle separation with high size-selectivity, efficiency, and purity
Xiao Wang; Jian Zhou; Ian Papautsky
Biomicrofluidics 7, 044119 (2013) https://doi.org/10.1063/1.4818906
View articletitled, Vortex-aided inertial microfluidic device for continuous particle separation with high size-selectivity, efficiency, and purity
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Sorting of circulating tumor cells (MV3-melanoma) and red blood cells using non-inertial lift
Thomas M. Geislinger; Thomas Franke
Biomicrofluidics 7, 044120 (2013) https://doi.org/10.1063/1.4818907
View articletitled, Sorting of circulating tumor cells (MV3-melanoma) and red blood cells using non-inertial lift
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Three dimensional microfluidics with embedded microball lenses for parallel and high throughput multicolor fluorescence detection
Y. J. Fan; Y. C. Wu; Y. Chen; Y. C. Kung; T. H. Wu; K. W. Huang; H. J. Sheen; P. Y. Chiou
Biomicrofluidics 7, 044121 (2013) https://doi.org/10.1063/1.4818944
View articletitled, Three dimensional microfluidics with embedded microball lenses for parallel and high throughput multicolor fluorescence detection
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A droplet-based novel approach for viable and low volume consumption surface plasmon resonance bio-sensing inside a polydimethylsiloxane microchip
T. Ghosh; Y. Xie; C. Mastrangelo
Biomicrofluidics 7, 044122 (2013) https://doi.org/10.1063/1.4819101
View articletitled, A droplet-based novel approach for viable and low volume consumption surface plasmon resonance bio-sensing inside a polydimethylsiloxane microchip
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Bistability in droplet traffic at asymmetric microfluidic junctions
Pravien Parthiban; Saif A. Khan
Biomicrofluidics 7, 044123 (2013) https://doi.org/10.1063/1.4819276
View articletitled, Bistability in droplet traffic at asymmetric microfluidic junctions
Supplementary Material
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Circulating but not immobilized N-deglycosylated von Willebrand factor increases platelet adhesion under flow conditions
M. A. Fallah; V. Huck; V. Niemeyer; A. Desch; J. I. Angerer; T. A. J. McKinnon; A. Wixforth; S. W. Schneider; M. F. Schneider
Biomicrofluidics 7, 044124 (2013) https://doi.org/10.1063/1.4819746
View articletitled, Circulating but not immobilized N-deglycosylated von Willebrand factor increases platelet adhesion under flow conditions
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A standalone perfusion platform for drug testing and target validation in micro-vessel networks
Boyang Zhang; Carlotta Peticone; Shashi K. Murthy; Milica Radisic
Biomicrofluidics 7, 044125 (2013) https://doi.org/10.1063/1.4818837
View articletitled, A standalone perfusion platform for drug testing and target validation in micro-vessel networks
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Discrimination between the human prostate normal cell and cancer cell by using a novel electrical impedance spectroscopy controlling the cross-sectional area of a microfluidic channel
Giseok Kang; Young-jae Kim; Hong-sang Moon; Jeong-Woo Lee; Tag-Keun Yoo; Kwangsung Park; Jong-Hyun Lee
Biomicrofluidics 7, 044126 (2013) https://doi.org/10.1063/1.4818838
View articletitled, Discrimination between the human prostate normal cell and cancer cell by using a novel electrical impedance spectroscopy controlling the cross-sectional area of a microfluidic channel
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A multichannel acoustically driven microfluidic chip to study particle-cell interactions
Xue-Yan Wang; Christian Fillafer; Clara Pichl; Stephanie Deinhammer; Renate Hofer-Warbinek; Michael Wirth; Franz Gabor
Biomicrofluidics 7, 044127 (2013) https://doi.org/10.1063/1.4819273
View articletitled, A multichannel acoustically driven microfluidic chip to study particle-cell interactions
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Microfluidic fabrication of polymeric core-shell microspheres for controlled release applications
Tiantian Kong; Jun Wu; Kelvin Wai Kwok Yeung; Michael Kai Tsun To; Ho Cheung Shum (岑浩璋); Liqiu Wang
Biomicrofluidics 7, 044128 (2013) https://doi.org/10.1063/1.4819274
View articletitled, Microfluidic fabrication of polymeric core-shell microspheres for controlled release applications
Supplementary Material
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Circadian rhythms in Neurospora crassa on a polydimethylsiloxane microfluidic device for real-time gas perturbations
Kang Kug Lee; Chong H. Ahn; Christian I. Hong
Biomicrofluidics 7, 044129 (2013) https://doi.org/10.1063/1.4819478
View articletitled, Circadian rhythms in <em>Neurospora crassa</em> on a polydimethylsiloxane microfluidic device for real-time gas perturbations
Supplementary Material
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Bio-electrospraying of human mesenchymal stem cells: An alternative for tissue engineering
D. I. Braghirolli; F. Zamboni; P. C. Chagastelles; D. J. Moura; J. Saffi; J. A. P. Henriques; D. A. Pilger; P. Pranke
Biomicrofluidics 7, 044130 (2013) https://doi.org/10.1063/1.4819747
View articletitled, Bio-electrospraying of human mesenchymal stem cells: An alternative for tissue engineering
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ERRATA

Publisher's Note: “Label-free electronic probing of nucleic acids and proteins at the nanoscale using the nanoneedle biosensor” [Biomicrofluidics 7, 044114 (2013)]
Rahim Esfandyarpour; Mehdi Javanmard; Zahra Koochak; Hesaam Esfandyarpour; James S. Harris; Ronald W. Davis
Biomicrofluidics 7, 049901 (2013) https://doi.org/10.1063/1.4819277
View articletitled, Publisher's Note: “Label-free electronic probing of nucleic acids and proteins at the nanoscale using the nanoneedle biosensor” [Biomicrofluidics 7, 044114 (2013)]
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Microfluidic tools to model, monitor, and modulate the gut–brain axis
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Conditions for a microfluidic creep experiment for microparticles using a cross-slot extensional flow device
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From specialization to broad adoption: Key trends in droplet microfluidic innovations enhancing accessibility to non-experts
Jolien Breukers, Karen Ven, et al.
  • Online ISSN 1932-1058

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