Paper Chromatography

Clegg, D. L.

doi:10.1021/ac60037a014

Cited by 59 publications

(38 citation statements)

References 107 publications

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“…[38] A well-known analytical technology that has solved the problem of liquid transport in a very simple way is paper chromatography. [39] Paper, as a microporous hydrophilic material, is able to wick aqueous liquids. The first time that this property was used to control the flow of liquid was in a piece of filter paper patterned with a fluidic channel defined by a barrier of solid wax to simplify paper chromatography ( Figure 2).…”

Section: From Microfluidic Analytical Devices To Mpadsmentioning

confidence: 99%

Paper‐Based Inkjet‐Printed Microfluidic Analytical Devices

et al. 2015

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Rapid, precise, and reproducible deposition of a broad variety of functional materials, including analytical assay reagents and biomolecules, has made inkjet printing an effective tool for the fabrication of microanalytical devices. A ubiquitous office device as simple as a standard desktop printer with its multiple ink cartridges can be used for this purpose. This Review discusses the combination of inkjet printing technology with paper as a printing substrate for the fabrication of microfluidic paper-based analytical devices (μPADs), which have developed into a fast-growing new field in analytical chemistry. After introducing the fundamentals of μPADs and inkjet printing, it touches on topics such as the microfluidic patterning of paper, tailored arrangement of materials, and functionalities achievable exclusively by the inkjet deposition of analytical assay components, before concluding with an outlook on future perspectives.

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Section: From Microfluidic Analytical Devices To Mpadsmentioning

confidence: 99%

Paper‐Based Inkjet‐Printed Microfluidic Analytical Devices

et al. 2015

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“…Since the last century, paper -generally made of cellulose fibers -has been used as platform for chromatographic separations [60], chemical [61,62], and biochemical tests [63,64]. Recently, however, Whitesides and co-workers [14,15,[65][66][67] demonstrated the advantages of using this substrate for fabrication of microfluidic devices that allow conducting multiples, simultaneous, and independent assays (multiplexed detection).…”

Section: Paper-based Microfluidic Devicesmentioning

confidence: 99%

Toner and paper‐based fabrication techniques for microfluidic applications

et al. 2010

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The interest in low-cost microfluidic platforms as well as emerging microfabrication techniques has increased considerably over the last years. Toner- and paper-based techniques have appeared as two of the most promising platforms for the production of disposable devices for on-chip applications. This review focuses on recent advances in the fabrication techniques and in the analytical/bioanalytical applications of toner and paper-based devices. The discussion is divided in two parts dealing with (i) toner and (ii) paper devices. Examples of miniaturized devices fabricated by using direct-printing or toner transfer masking in polyester-toner, glass, PDMS as well as conductive platforms as recordable compact disks and printed circuit board are presented. The construction and the use of paper-based devices for off-site diagnosis and bioassays are also described to cover this emerging platform for low-cost diagnostics.

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“…New developments are now reviewed annually (197,102,198,27,200,96,201). Only those aspects will be referred to here that appear to bear on the practical application of chromatography to solutions of proteins.…”

Section: Theory and Principlesmentioning

confidence: 99%

“…Further, the adsorbent should be easy to pack into a uniform column since irregularities distort the zones. New information on adsorbents is now summarized annually (27,96,102,197,198,200,201).…”

Section: Othermentioning

confidence: 99%

Adsorption Studies of Enzymes and Other Proteins

Zittle¹

1953

Advances in Enzymology - And Related Areas of Molecular Biology

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Paper Chromatography

Cited by 59 publications

References 107 publications

Paper‐Based Inkjet‐Printed Microfluidic Analytical Devices

Paper‐Based Inkjet‐Printed Microfluidic Analytical Devices

Toner and paper‐based fabrication techniques for microfluidic applications

Adsorption Studies of Enzymes and Other Proteins

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