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Общее количество найденных документов : 19
Показаны документы с 1 по 19
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1.
| Bar-Cohen Gen-3 thermal management technology: Role of microchannels and nanostructures in an embedded cooling paradigm // Trans. ASME. J. Nanotechnol. Eng. and Med., 2013. Vol. 4, N 2.-С.020907/1-020907/3
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2.
| Berg Howard C. Chemotaxis of bacteria in glass capillary arrays, Escherichia coli, motility, microchannel plate, and light scattering // Biophys. J., 1990. Vol. 58, N 4.-С.919-930
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3.
| Capillary action: Enrichment of retention and habitation of cells via micro-channeled scaffolds for massive bone defect regeneration // J. Mater. Sci. Mater. Med., 2014. Vol. 25, N 8.-С.1991-2001
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4.
| Chakraborty Anomalous mixing behaviour in rotationally actuated microfluidic devices // Lab on Chip, 2011. Vol. 11, N 17.-С.2823-2826
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| Continuous blood separation utilizing spiral filtration microchannel with gradually varied width and micro-pillar array // Sens. and Actuators. B, 2013. Vol. 180.-С.122-129
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6.
| Dielectrophoresis in a slanted microchannel for separation of microparticles and bacteria // J. Nanosci. and Nanotechnol., 2013. Vol. 13, N 12.-С.7993-7997
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7.
| Dielectrophoresis in a slanted microchannel for separation of microparticles and bacteria // J. Nanosci. and Nanotechnol., 2013. Vol. 13, N 12.-С.7993-7997
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8.
| Frame Mary D.S. Velocity profile in D-shaped microchannels // Ann. Biomed. Eng., 1997. Vol. 25, Suppl. n1.-С.54
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9.
| Kinematics of specifically captured circulating tumor cells in bio-functionalized microchannels // J. Microelectromech. Syst., 2010. Vol. 19, N 4.-С.752-763
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| Ko Directing cell migration in continuous microchannels by topographical amplification of natural directional persistence // Biomaterials, 2013. Vol. 34, N 2.-С.353-360
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11.
| Microfabrication of 3D neural probes with combined electrical and chemical interfaces // J. Micromech. and Microeng., 2011. Vol. 21, N 10.-С.105011
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12.
| Moles Donald R. Microfluidic analyzer module
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13.
| Pathak Independent regulation of tumor cell migration by matrix stiffness and confinement // Proc. Nat. Acad. Sci. USA, 2012. Vol. 109, N 26.-С.10334-10339
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14.
| Pathak Independent regulation of tumor cell migration by matrix stiffness and confinement // Proc. Nat. Acad. Sci. USA, 2012. Vol. 109, N 26.-С.10334-10339
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15.
| Pullano S.A. Pyroelectric sensor for temperature monitoring of biological fluids in microchannel devices // IEEE Sens. J., 2014. Vol. 14, N 8.-С.2725-2730
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16.
| Size-dependent nanoparticle marginatoin and adhesion propensity in a microchannel // Trans. ASME. J. Nanotechnol. Eng. and Med., 2013. Vol. 4, N 3.-С.031002/1-031002/2
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17.
| Wilding Manipulation and flow of biological fluids in straight channels micromachined in silicon // Clin. Chem., 1994. Vol. 40, N 1.-С.43-47
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18.
| Тарасенко С.В. Повышение безопасности оперативных вмешательств на нижней челюсти с учетом топографии питательных отверстий и микроканалов // Рос. стоматол. ж., 2014. Т. 18, N 6.-С.33-36+1 вкл.ил.
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19.
| Хорняк Т. Микросистемы с сердцем // В мире науки, 2007, N 8.-С.12-13
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