Paper based microfluidic devices: a review of fabrication techniques and applications

Anushka,; Bandopadhyay, Aditya; Das, Prasanta Kumar

doi:10.1140/epjs/s11734-022-00727-y

Cited by 29 publications

(20 citation statements)

References 222 publications

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“…Most of the PμFCs fed by biomass-derived alcohols reported here are also higher than those reported in the literature, even considering other fuels and oxidants . Under our knowledge, the systems that deliver higher power density than reported here are fed by other liquids, such as formic acid, potassium formate in stacks, zinc and vanadium, and others detailed by Tanveer et al Moreover, the PμFC reported here may benefit further from an improved design, such as folding, adding patterns to change the flow mechanism, changing the size of electrodes, and flow configuration …”

Section: Resultsmentioning

confidence: 46%

“…The PμFC was designed in a simple and well-known architecture, aiming to investigate the use of biomass-derived fuels as the sole variable. A similar design can be found elsewhere, and the mechanism of fluid transport throughout the paper is based on the capillarity of the cellulose paper, without intricate sets of hydrophilic/hydrophobic patterns …”

Section: Methodsmentioning

confidence: 99%

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Interchangeable Biomass Fuels for Paper-Based Microfluidic Fuel Cells: Finding Their Power Density Limits

Lima

Rocha

Silva

et al. 2023

ACS Appl. Mater. Interfaces

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Paper batteries are self-pumping emerging tools for powering portable analytical systems. These disposable energy converters must be low-cost and must achieve enough energy to power electronic devices. The challenge is reaching high energy while keeping the low cost. Here, for the first time, we report a paper-based microfluidic fuel cell (PμFC) equipped with Pt/C on a carbon paper (CP) anode and a metal-free CP cathode fed by biomass-derived fuels to deliver high power. The cells were engineered in a mixed-media configuration, where methanol, ethanol, ethylene glycol, or glycerol is electro-oxidized in an alkaline medium, while Na 2 S 2 O 8 is reduced in an acidic medium. This strategy allows for optimizing each half-cell reaction independently. The colaminar channel of the cellulose paper was chemically investigated by mapping the composition, which reveals a majority of elements from the catholyte and anolyte on each respective side and a mixture of both at the interface, assuring the existing colaminar system. Moreover, the colaminar flow was studied by investigating the flow rate by considering recorded videos for the first time. All PμFCs show 150−200 s to build a stable colaminar flow, which matches the time to reach a stable open circuit voltage. The flow rate is similar for different concentrations of methanol and ethanol, but it decreases with the increase in ethylene glycol and glycerol concentrations, suggesting a longer residence time for the reactants. The cells perform differently for the different concentrations, and their limiting power densities are composed of a balance among anode poisoning, residence time, and viscosity of the liquids. The sustainable PμFCs can be interchangeably fed by the four biomass-derived fuels to deliver ∼2.2−3.9 mW cm −2 . This allows choosing the proper fuel due to their availability. The unprecedented PμFC fed by ethylene glycol delivered 6.76 mW cm −2 , which is the benchmark output power for a paper battery fed by alcohol.

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Section: Resultsmentioning

confidence: 46%

Section: Methodsmentioning

confidence: 99%

Interchangeable Biomass Fuels for Paper-Based Microfluidic Fuel Cells: Finding Their Power Density Limits

Lima

Rocha

Silva

et al. 2023

ACS Appl. Mater. Interfaces

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“…Many research organizations collaborate with industrial partners, but actual commercialization is still lacking (Trinh et al, 2022). Large‐scale printing methods should be investigated to fabricate µPADs that are low in cost, high in resolution, and have simple process steps (Anushka et al, 2022).…”

Section: Market Demand and Future Prospectsmentioning

confidence: 99%

Evaluation of food μPADs with the new tech perspectives and future prospects

Okutan Arslan,

Trabzon

2023

eFood

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Food microfluidic paper‐based analytical devices (µPADs) are powerful tools to create total analysis systems and have long been demonstrated to be useful for safety and quality applications. Thanks to new technological innovations food µPADs offer exciting new possibilities. This review introduces how µPADs are obtained from chromatography, filter, or office papers and detect analytes from a food sample. We introduce the most current developments in the use of µPADs with an emphasis on paper types, adapted new technologies, and detection limits. Classifications are also made on food µPADs according to applied innovations and adapted novel technologies. In the first section, simple forms of µPADs for the detection of pathogen, mycotoxin, pesticides, and other food components are discussed with technical details. Then, we introduce multisensing approaches for high throughput analysis and a concise summary will be given. In the case of three‐dimensional (3D) µPADs, the use of 3D is discussed and compared to 2D µPADs in terms of its advantageous with the example of a food colorant test device. In the following section, smartphone adoption to µPADs is introduced in detail with eight different assay examples. Centrifugal platform for nickel assay is demonstrated as an enabling approach with shortened assay times by rotational velocity. The potential of user‐friendly hybrid devices is also summarized in the last part. Finally, we present an outlook to underline the opportunities created by smartphone‐based and intelligent µPADs for food safety and quality with real success perspectives

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“…The use of μPADs has several advantages over traditional diagnostic techniques, such as being low cost, ease of use, and portable. [18][19][20][21][22] The wicking of the liquid through the porous matrix in μPADs promotes the transport of the sample and facilitates the mixing of the sample with reagents, enabling the detection of target analytes. μPADs have been utilized for a wide range of applications, including detection of infectious diseases, environmental monitoring, and food safety testing.…”

Section: Introductionmentioning

confidence: 99%

“…μPADs have been utilized for a wide range of applications, including detection of infectious diseases, environmental monitoring, and food safety testing. 22 Understanding liquid wicking in porous media is crucial in the development of new and efficient μPADs. By optimizing the properties of the porous material, such as pore size and shape, and the composition of the reagents, the performance of the device can be enhanced, leading to more sensitive and accurate detection of target analytes.…”

Section: Introductionmentioning

confidence: 99%

Capacitive platform for real-time wireless monitoring of liquid wicking in a paper strip

Ruiz-García,

Escobedo,

Ramos-Lorente

et al. 2023

Lab Chip

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Paper based microfluidic devices: a review of fabrication techniques and applications

Cited by 29 publications

References 222 publications

Interchangeable Biomass Fuels for Paper-Based Microfluidic Fuel Cells: Finding Their Power Density Limits

Interchangeable Biomass Fuels for Paper-Based Microfluidic Fuel Cells: Finding Their Power Density Limits

Evaluation of food μPADs with the new tech perspectives and future prospects

Capacitive platform for real-time wireless monitoring of liquid wicking in a paper strip

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