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1
Manipulation and confinement of single particles using fluid flow.
Nano Lett. 2013 Jun 12;13(6):2357-64. doi: 10.1021/nl4008437. Epub 2013 May 21.
2
A microfluidic-based hydrodynamic trap for single particles.
J Vis Exp. 2011 Jan 21(47):2517. doi: 10.3791/2517.
3
A microfluidic-based hydrodynamic trap: design and implementation.
Lab Chip. 2011 May 21;11(10):1786-94. doi: 10.1039/c0lc00709a. Epub 2011 Apr 8.
4
High throughput single-cell and multiple-cell micro-encapsulation.
J Vis Exp. 2012 Jun 15(64):e4096. doi: 10.3791/4096.
5
Hydrodynamic trap for single particles and cells.
Appl Phys Lett. 2010 May 31;96(22):224101. doi: 10.1063/1.3431664. Epub 2010 Jun 2.
6
Macromolecular crowding: chemistry and physics meet biology (Ascona, Switzerland, 10-14 June 2012).
Phys Biol. 2013 Aug;10(4):040301. doi: 10.1088/1478-3975/10/4/040301. Epub 2013 Aug 2.
7
8
Optical trapping of nanoparticles.
J Vis Exp. 2013 Jan 15(71):e4424. doi: 10.3791/4424.
9
Charge-based particle separation in microfluidic devices using combined hydrodynamic and electrokinetic effects.
Lab Chip. 2009 Jul 7;9(13):1914-25. doi: 10.1039/b819054b. Epub 2009 Mar 26.

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Capillary wave tweezer.
Sci Rep. 2024 May 30;14(1):12448. doi: 10.1038/s41598-024-63154-0.
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Thomson-Einstein's Tea Leaf Paradox Revisited: Aggregation in Rings.
Micromachines (Basel). 2023 Oct 30;14(11):2024. doi: 10.3390/mi14112024.
3
Numerical investigation of the dynamics of a rigid spherical particle in a vortical cross-slot flow at moderate inertia.
Microsyst Nanoeng. 2023 Jul 26;9:100. doi: 10.1038/s41378-023-00541-z. eCollection 2023.
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Optically induced electrothermal microfluidic tweezers in bio-relevant media.
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Interfacial Tension Measurements in Microfluidic Quasi-Static Extensional Flows.
Micromachines (Basel). 2021 Mar 6;12(3):272. doi: 10.3390/mi12030272.
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Multiple Degrees of Freedom in the Fish Skull and Their Relation to Hydraulic Transport of Prey in Channel Catfish.
Integr Org Biol. 2020 Nov 10;2(1):obaa031. doi: 10.1093/iob/obaa031. eCollection 2020.
8
Experimental fluid dynamics characterization of a novel micropump-mixer.
Biomicrofluidics. 2020 Aug 20;14(4):044116. doi: 10.1063/5.0012240. eCollection 2020 Jul.
9
Stretching DNA to twice the normal length with single-molecule hydrodynamic trapping.
Lab Chip. 2020 May 19;20(10):1780-1791. doi: 10.1039/c9lc01028a.
10
A versatile cancer cell trapping and 1D migration assay in a microfluidic device.
Biomicrofluidics. 2019 Jul 23;13(4):044105. doi: 10.1063/1.5103269. eCollection 2019 Jul.

本文引用的文献

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Angular orientation of nanorods using nanophotonic tweezers.
Nano Lett. 2012 Dec 12;12(12):6400-7. doi: 10.1021/nl303747n. Epub 2012 Nov 14.
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Toward efficient optical trapping of sub-10-nm particles with coaxial plasmonic apertures.
Nano Lett. 2012 Nov 14;12(11):5581-6. doi: 10.1021/nl302627c. Epub 2012 Oct 12.
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Angular trapping of anisometric nano-objects in a fluid.
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Optimized cross-slot flow geometry for microfluidic extensional rheometry.
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Femtosecond-pulsed plasmonic nanotweezers.
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On-chip manipulation of single microparticles, cells, and organisms using surface acoustic waves.
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Significantly improved trapping lifetime of nanoparticles in an optical trap using feedback control.
Nano Lett. 2012 May 9;12(5):2347-51. doi: 10.1021/nl300301x. Epub 2012 Apr 18.
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Controlled photonic manipulation of proteins and other nanomaterials.
Nano Lett. 2012 Mar 14;12(3):1633-7. doi: 10.1021/nl204561r. Epub 2012 Feb 2.
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Hydrodynamic tweezers: impact of design geometry on flow and microparticle trapping.
Anal Chem. 2012 Feb 21;84(4):1963-8. doi: 10.1021/ac203002z. Epub 2012 Feb 3.
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Application of plasmonic bowtie nanoantenna arrays for optical trapping, stacking, and sorting.
Nano Lett. 2012 Feb 8;12(2):796-801. doi: 10.1021/nl203811q. Epub 2012 Jan 9.

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