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Paving the way to industrially fabricated disposable and customizable surface-enhanced Raman scattering microfluidic chips for diagnostic applications

Abstract: Both surface-enhanced Raman scattering (SERS) spectroscopy and microfluidics are increasing their presence in industry. The integration of SERS into microfluidic chips is relevant for label-free biosensing and can expand the function of microfluidics to provide an efficient platform for on-site biochemical analysis equipped with the powerful sensing capability of SERS. Herein, the design and industry manufacturing of reliable and cost-effective disposable SERS microfluidic chips using high throughput technologies of injection molding and roll-to-roll are demonstrated. The SERS microfluidic chip is made of cyclic olein copolymers and of an ultrathin nanostructured polyethylene terephthalate foil covered by a plasmonic nanostructured Ag film, enabling Raman readout through it. This ultrathin plasmonic Ag-coated PET layer overcomes the drawbacks of SERS through thick polymeric microfluidic cells, i.e., it avoids strong fluorescence signals interfering with the Raman measurements and avoids high working distances. The achieved SERS enhancement in the range 105-106 is demonstrated by probing 100 nl of 1 M rhodamine and of 10?12 m crystal violet with a > 90% reproducible signal, with large-area uniformity on all the SERS area of 20 mm 2 and good stability of the signal over months. Therefore, this approach of SERS microfluidic chips provides an industrially viable customizable and cost-effective route toward disposable, point-of-care diagnostic applications.

 Fuente: Advanced Engineering Materials, 2022, 24(8), 2101365

 Publisher: Wiley-VCH

 Year of publication: 2022

 No. of pages: 12

 Publication type: Article

 DOI: 10.1002/adem.202101365

 ISSN: 1527-2648,1438-1656

 Publication Url: https://doi.org/10.1002/adem.202101365

Authorship

LOSURDO, MARIA

PRINZ, IRIS

PRINZ, ADRIAN

BAUER, GEORG

BAUER, MARIA

SCHMIDT, MARTINA M.

SCHALLER, THORSTEN