Photonic ring resonance is a versatile platform for performing multiplex immunoassays in real time

Mudumba, Sasi; Alba, Sophia de; Romero, Randy; Cherwien, Carli; Wu, Alice Ying-Jung; Wang, Jue; Gleeson, Martin A.; Iqbal, Muzammil; Burlingame, Rufus W.

doi:10.1016/j.jim.2017.05.005

Cited by 48 publications

(32 citation statements)

References 16 publications

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“…More recently, Silicon Photonics has been leveraging the CMOS infrastructure to address the growing demands for optical communications for Internet and data-center networks 3,6,7 . This convergence of photonics with CMOS is very promising to create a new paradigm in electronic-photonic technologies: processor and memory chips with high-bandwidth optical input/output 1,4 , communications chips with high-fidelity optical signal processing 2,12 , and highly parallel optical biochemical sensors for blood analysis 13 and gene sequencing 14 . To make these aspirations a reality, photonic devices need to be integrated with a variety of nanoelectronic functions (digital, analog, memory, storage, etc.)…”

mentioning

confidence: 99%

Integrating photonics with silicon nanoelectronics for the next generation of systems on a chip

Atabaki

Moazeni

Pavanello

et al. 2018

Nature

700

403

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mentioning

confidence: 99%

Integrating photonics with silicon nanoelectronics for the next generation of systems on a chip

Atabaki

Moazeni

Pavanello

et al. 2018

Nature

700

403

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“…The disposable and consumable sensing chip contains two fluidic channels and each channel covers 16 waveguide‐coupled microring‐based sensing units. [ 208 ] Single test against 16 analytes can be performed with a low sample consumption down to 5–10 µL in only 10 min. In particular, the system performs biomolecule assays in multiple complex matrices such as serum, plasma, whole blood, and crude extracts, which largely simplifies the sample preparation step.…”

Section: Current Commercial Chip‐scale Evanescent Field‐based Biosensorsmentioning

confidence: 99%

Silicon‐Based Integrated Label‐Free Optofluidic Biosensors: Latest Advances and Roadmap

Wang

Sánchez

Yin

et al. 2020

Adv Materials Technologies

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By virtue of the well‐developed micro‐ and nanofabrication technologies and rapidly progressing surface functionalization strategies, silicon‐based devices have been widely recognized as a highly promising platform for the next‐generation lab‐on‐a‐chip bioanalytical systems with a great potential for point‐of‐care medical diagnostics. Herein, an overview of the latest advances in silicon‐based integrated optofluidic label‐free biosensing technologies relying on the efficient interactions between the evanescent light field at the functionalized surface and specifically bound analytes is presented. State‐of‐the‐art technologies demonstrating label‐free evanescent wave‐based biomarker detection mainly encompass three device configurations, including on‐chip waveguide‐based interferometers, microring resonators, and photonic‐crystal‐based cavities. Moreover, up‐to‐date strategies for elevating the sensitivities and also simplifying the sensing processes are discussed. Emerging laboratory prototypes with advanced integration and packaging schemes incorporating automatic microfluidic components or on‐chip optoelectronic devices lead to one significant step forward in real applications of decentralized diagnostics. Besides, particular attention is paid to currently commercialized label‐free optical bioanalytical models on the market. Finally, the prospects are elaborated with several research routes toward chip‐scale, low‐cost, highly sensitive, multi‐functional, and user‐friendly bioanalytical systems benefiting to global healthcare.

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“…Ring resonator biosensors have shown a great potential, because they allow realizing devices with high compactness and high quality factors, robust to fabrication. Commercial devices are already produced by Genalyte, in form of sensors array for real‐time multiple detections.…”

Section: Integrated Photonic Solutions For Biosensingmentioning

confidence: 99%

Integrated Photonic and Plasmonic Resonant Devices for Label‐Free Biosensing and Trapping at the Nanoscale

Ciminelli

Dell’Olio

Conteduca

et al. 2018

Physica Status Solidi (a)

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In the last few years, integrated photonic and plasmonic devices based on resonant cavities have become key building blocks in new microsystems, instruments, and diagnostic tools for a wide range of biomedical applications including point‐of‐care (POC) diagnostics, new drug development, and proteomics. Several resonant label‐free photonic and plasmonic biosensors for early diagnosis and monitoring of a wide range of pathologies have attracted a remarkable research interest due to their characteristic features such as high resolution, small size, immunity to electromagnetic interferences, compatibility with the CMOS technology, and strong light–matter interaction. Moreover, recently, photonic, plasmonic, and hybrid photonic/plasmonic micro and nano‐cavities have experimentally demonstrated a great potential also for trapping at the nanoscale and the interest toward these devices in the field of healthcare is quickly rising. Here, the recent advances in the field of integrated photonic and plasmonic devices based on resonant cavities for label‐free biosensing and trapping at the nanoscale are critically reviewed, with a special emphasis on the specific applications of these devices such as diseases diagnostics and new drugs development.

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Photonic ring resonance is a versatile platform for performing multiplex immunoassays in real time

Cited by 48 publications

References 16 publications

Integrating photonics with silicon nanoelectronics for the next generation of systems on a chip

Integrating photonics with silicon nanoelectronics for the next generation of systems on a chip

Silicon‐Based Integrated Label‐Free Optofluidic Biosensors: Latest Advances and Roadmap

Integrated Photonic and Plasmonic Resonant Devices for Label‐Free Biosensing and Trapping at the Nanoscale

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