Localized air-mediated heating method for isothermal and rapid thermal processing on lab-on-a-disk platforms

•Significant enhancement of the heating and cooling rates in comparison to common air-mediated techniques.•Ability of performing thermal processing for the specific ring-shaped regions on the rotating LOD.•Ability of integration several thermally dependents operational units and reaction in a single...

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Published inSensors and actuators. B, Chemical Vol. 294; pp. 270 - 282
Main Authors Pishbin, Esmail, Eghbal, Manouchehr, Navidbakhsh, Mahdi, Zandi, Mohammad
Format Journal Article
LanguageEnglish
Published Lausanne Elsevier B.V 01.09.2019
Elsevier Science Ltd
Subjects
Air flow
Air temperature
Angular velocity
Centrifugal
Computer simulation
Cooling rate
Flow velocity
Heat transfer
Heating
Isothermal
Local
Microfluidics
Nozzles
PCR
Platforms
Rotating disks
Rotation
Temperature distribution
Temperature effects
Thermal cycling
Local
Isothermal
Microfluidics
Heat transfer
PCR
Centrifugal
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Abstract •Significant enhancement of the heating and cooling rates in comparison to common air-mediated techniques.•Ability of performing thermal processing for the specific ring-shaped regions on the rotating LOD.•Ability of integration several thermally dependents operational units and reaction in a single LOD by using thepresented heating method.•Achieving stable temperature in a steady state for performing isothermal applications.•Possibility of integration with other external utilities, e.g., fluorescent detection hardwares. In this study, an air-mediated local heating method is developed for Lab-on-a-Disk platforms. The hot air is blown on a rotating disk through a dual-sided nozzle for heating up the specific ring-shaped regions on the rotating disk surface. The local heating can be used for combining different thermal based fluidic functions and reactions in a single disk. A numerical simulation has been performed for analyzing the air flow and temperature distribution on different regions of the disk and surrounding air. The effects of the operational parameters including hot air temperature and flow rates as well as the angular velocity of the disk are evaluated using an exclusive experimental setup. The results show that without considerable thermal effect on other regions of the disk, a uniform temperature can be achieved for the liquid sample (25 μl in this study) with a considerable temperature changing rates. The proposed method has been implemented for a PCR amplification of the β actin gene. The heating and cooling rates of the thermocycling process were 1.8 °C/s and 2.2 °C/s respectively.
AbstractList In this study, an air-mediated local heating method is developed for Lab-on-a-Disk platforms. The hot air is blown on a rotating disk through a dual-sided nozzle for heating up the specific ring-shaped regions on the rotating disk surface. The local heating can be used for combining different thermal based fluidic functions and reactions in a single disk. A numerical simulation has been performed for analyzing the air flow and temperature distribution on different regions of the disk and surrounding air. The effects of the operational parameters including hot air temperature and flow rates as well as the angular velocity of the disk are evaluated using an exclusive experimental setup. The results show that without considerable thermal effect on other regions of the disk, a uniform temperature can be achieved for the liquid sample (25 μl in this study) with a considerable temperature changing rates. The proposed method has been implemented for a PCR amplification of the β actin gene. The heating and cooling rates of the thermocycling process were 1.8 °C/s and 2.2 °C/s respectively.
•Significant enhancement of the heating and cooling rates in comparison to common air-mediated techniques.•Ability of performing thermal processing for the specific ring-shaped regions on the rotating LOD.•Ability of integration several thermally dependents operational units and reaction in a single LOD by using thepresented heating method.•Achieving stable temperature in a steady state for performing isothermal applications.•Possibility of integration with other external utilities, e.g., fluorescent detection hardwares. In this study, an air-mediated local heating method is developed for Lab-on-a-Disk platforms. The hot air is blown on a rotating disk through a dual-sided nozzle for heating up the specific ring-shaped regions on the rotating disk surface. The local heating can be used for combining different thermal based fluidic functions and reactions in a single disk. A numerical simulation has been performed for analyzing the air flow and temperature distribution on different regions of the disk and surrounding air. The effects of the operational parameters including hot air temperature and flow rates as well as the angular velocity of the disk are evaluated using an exclusive experimental setup. The results show that without considerable thermal effect on other regions of the disk, a uniform temperature can be achieved for the liquid sample (25 μl in this study) with a considerable temperature changing rates. The proposed method has been implemented for a PCR amplification of the β actin gene. The heating and cooling rates of the thermocycling process were 1.8 °C/s and 2.2 °C/s respectively.
Author Eghbal, Manouchehr
Navidbakhsh, Mahdi
Pishbin, Esmail
Zandi, Mohammad
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  organization: Stem-Cell and transgenic animals lab, Department of Agriculture, Iranian Research Organization for Science and Technology (IROST), Tehran, Iran
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PCR
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Snippet •Significant enhancement of the heating and cooling rates in comparison to common air-mediated techniques.•Ability of performing thermal processing for the...
In this study, an air-mediated local heating method is developed for Lab-on-a-Disk platforms. The hot air is blown on a rotating disk through a dual-sided...
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StartPage 270
SubjectTerms Air flow
Air temperature
Angular velocity
Centrifugal
Computer simulation
Cooling rate
Flow velocity
Heat transfer
Heating
Isothermal
Local
Microfluidics
Nozzles
PCR
Platforms
Rotating disks
Rotation
Temperature distribution
Temperature effects
Thermal cycling
Title Localized air-mediated heating method for isothermal and rapid thermal processing on lab-on-a-disk platforms
URI https://dx.doi.org/10.1016/j.snb.2019.05.039
https://www.proquest.com/docview/2256124428
Volume 294
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