Response to "Comment on 'Influence of random roughness on cantilever curvature sensitivity'" [Appl. Phys. Lett. 96, 226101, (2010)]

O. Ergincan; G. Palasantzas; B. J. Kooi

doi:10.1063/1.3442494

Response to "Comment on 'Influence of random roughness on cantilever curvature sensitivity'" [Appl. Phys. Lett. 96, 226101, (2010)]

O. Ergincan, G. Palasantzas^*, B. J. Kooi

^*Corresponding author voor dit werk

Onderzoeksoutput: Editorial › Academic › peer review

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Trapping and manipulation of microscale and nanoscale particles is demonstrated using the sole action of hydrodynamic forces. We developed an automated particle trap based on a stagnation point flow generated in a microfluidic device. The hydrodynamic trap enables confinement and manipulation of single particles in low viscosity (1-10 cP) aqueous solution. Using this method, we trapped microscale and nanoscale particles (100 nm-15 mu m) for long time scales (minutes to hours). We demonstrate particle confinement to within 1 mu m of the trap center, corresponding to a trap stiffness of similar to 10(-5)-10(-4) pN/nm.

Originele taal-2	English
Artikelnummer	226102
Aantal pagina's	1
Tijdschrift	Applied Physics Letters
Volume	96
Nummer van het tijdschrift	22
DOI's	https://doi.org/10.1063/1.3442494
Status	Published - 31-mei-2010

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title = "Response to {"}Comment on 'Influence of random roughness on cantilever curvature sensitivity'{"} [Appl. Phys. Lett. 96, 226101, (2010)]",

abstract = "Trapping and manipulation of microscale and nanoscale particles is demonstrated using the sole action of hydrodynamic forces. We developed an automated particle trap based on a stagnation point flow generated in a microfluidic device. The hydrodynamic trap enables confinement and manipulation of single particles in low viscosity (1-10 cP) aqueous solution. Using this method, we trapped microscale and nanoscale particles (100 nm-15 mu m) for long time scales (minutes to hours). We demonstrate particle confinement to within 1 mu m of the trap center, corresponding to a trap stiffness of similar to 10(-5)-10(-4) pN/nm.",

keywords = "hydrodynamics, microfluidics, multiphase flow, stagnation flow, viscosity",

author = "O. Ergincan and G. Palasantzas and Kooi, {B. J.}",

year = "2010",

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TY - JOUR

T1 - Response to "Comment on 'Influence of random roughness on cantilever curvature sensitivity'" [Appl. Phys. Lett. 96, 226101, (2010)]

AU - Ergincan, O.

AU - Palasantzas, G.

AU - Kooi, B. J.

PY - 2010/5/31

Y1 - 2010/5/31

N2 - Trapping and manipulation of microscale and nanoscale particles is demonstrated using the sole action of hydrodynamic forces. We developed an automated particle trap based on a stagnation point flow generated in a microfluidic device. The hydrodynamic trap enables confinement and manipulation of single particles in low viscosity (1-10 cP) aqueous solution. Using this method, we trapped microscale and nanoscale particles (100 nm-15 mu m) for long time scales (minutes to hours). We demonstrate particle confinement to within 1 mu m of the trap center, corresponding to a trap stiffness of similar to 10(-5)-10(-4) pN/nm.

AB - Trapping and manipulation of microscale and nanoscale particles is demonstrated using the sole action of hydrodynamic forces. We developed an automated particle trap based on a stagnation point flow generated in a microfluidic device. The hydrodynamic trap enables confinement and manipulation of single particles in low viscosity (1-10 cP) aqueous solution. Using this method, we trapped microscale and nanoscale particles (100 nm-15 mu m) for long time scales (minutes to hours). We demonstrate particle confinement to within 1 mu m of the trap center, corresponding to a trap stiffness of similar to 10(-5)-10(-4) pN/nm.

KW - hydrodynamics

KW - microfluidics

KW - multiphase flow

KW - stagnation flow

KW - viscosity

U2 - 10.1063/1.3442494

DO - 10.1063/1.3442494

M3 - Editorial

SN - 0003-6951

VL - 96

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 22

M1 - 226102

ER -

Response to "Comment on 'Influence of random roughness on cantilever curvature sensitivity'" [Appl. Phys. Lett. 96, 226101, (2010)]

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