Hollow-channel paper analytical devices

Christophe Renault; Xiang Li; Stephen E. Fosdick; Richard M. Crooks

doi:10.1021/ac401786h

Hollow-channel paper analytical devices

Christophe Renault
, Xiang Li
, Stephen E. Fosdick
, Richard M. Crooks^*

^*此作品的通讯作者

University of Texas at Austin

科研成果: 期刊稿件 › 文章 › 同行评审

169 引用（Scopus）

摘要

We present a microfluidic paper analytical device (μPAD) that relies on flow in hollow channels, rather than through a cellulose network, to transport fluids. The flow rate in hollow channels is 7 times higher than in regular paper channels and can be conveniently controlled from 0 to several mm/s by balancing capillary and pressure forces. More importantly, the pressure of a single drop of liquid (∼0.2 mbar) is sufficient to induce fast pressure-driven flow, making hollow channels suitable for point of care diagnostics. We demonstrate their utility for simple colorimetric glucose and BSA assays in which the time for liquid transport is reduced by a factor of 4 compared to normal cellulose channels.

源语言	英语
页（从-至）	7976-7979
页数	4
期刊	Analytical Chemistry
卷	85
期	16
DOI	https://doi.org/10.1021/ac401786h
出版状态	已出版 - 20 8月 2013
已对外发布	是

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10.1021/ac401786h

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abstract = "We present a microfluidic paper analytical device (μPAD) that relies on flow in hollow channels, rather than through a cellulose network, to transport fluids. The flow rate in hollow channels is 7 times higher than in regular paper channels and can be conveniently controlled from 0 to several mm/s by balancing capillary and pressure forces. More importantly, the pressure of a single drop of liquid (∼0.2 mbar) is sufficient to induce fast pressure-driven flow, making hollow channels suitable for point of care diagnostics. We demonstrate their utility for simple colorimetric glucose and BSA assays in which the time for liquid transport is reduced by a factor of 4 compared to normal cellulose channels.",

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T1 - Hollow-channel paper analytical devices

AU - Renault, Christophe

AU - Li, Xiang

AU - Fosdick, Stephen E.

AU - Crooks, Richard M.

PY - 2013/8/20

Y1 - 2013/8/20

N2 - We present a microfluidic paper analytical device (μPAD) that relies on flow in hollow channels, rather than through a cellulose network, to transport fluids. The flow rate in hollow channels is 7 times higher than in regular paper channels and can be conveniently controlled from 0 to several mm/s by balancing capillary and pressure forces. More importantly, the pressure of a single drop of liquid (∼0.2 mbar) is sufficient to induce fast pressure-driven flow, making hollow channels suitable for point of care diagnostics. We demonstrate their utility for simple colorimetric glucose and BSA assays in which the time for liquid transport is reduced by a factor of 4 compared to normal cellulose channels.

AB - We present a microfluidic paper analytical device (μPAD) that relies on flow in hollow channels, rather than through a cellulose network, to transport fluids. The flow rate in hollow channels is 7 times higher than in regular paper channels and can be conveniently controlled from 0 to several mm/s by balancing capillary and pressure forces. More importantly, the pressure of a single drop of liquid (∼0.2 mbar) is sufficient to induce fast pressure-driven flow, making hollow channels suitable for point of care diagnostics. We demonstrate their utility for simple colorimetric glucose and BSA assays in which the time for liquid transport is reduced by a factor of 4 compared to normal cellulose channels.

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DO - 10.1021/ac401786h

M3 - Article

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SN - 0003-2700

VL - 85

SP - 7976

EP - 7979

JO - Analytical Chemistry

JF - Analytical Chemistry

IS - 16

ER -

Hollow-channel paper analytical devices

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