IJN
 2018
DOI: 10.2147/ijn.s186644
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Chemiplasmonics for high-throughput biosensors

Achyut J. Raghavendra
1
,
Jingyi Zhu
2
,
Wren Gregory
3
et al.

Abstract: Background: The sensitivity of ELISA for biomarker detection can be significantly increased by integrating fluorescence with plasmonics. In surface-plasmon-coupled emission, the fluorophore emission is generally enhanced through the so-called physical mechanism due to an increase in the local electric field. Despite its fairly high enhancement factors, the use of surface-plasmoncoupled emission for high-throughput and point-of-care applications is still hampered due to the need for expensive focusing optics an… Show more

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Cited by 1 publication
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“…Raghavendra et al used a smartphone camera as an emission detector of greenlaser excited rhodamine B. 11 The detection procedure utilized ImageJ software to analyze the intensity of the RGB components; it had a DL of about 6.6 pM. Lertvachirapaiboon et al developed some types of colorimetric analyzing systems based on the SPR.…”
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confidence: 99%

Laboratory-on-a-Smartphone

Mitsushio
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2020
ANAL. SCI.
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“…Raghavendra et al used a smartphone camera as an emission detector of greenlaser excited rhodamine B. 11 The detection procedure utilized ImageJ software to analyze the intensity of the RGB components; it had a DL of about 6.6 pM. Lertvachirapaiboon et al developed some types of colorimetric analyzing systems based on the SPR.…”
mentioning
confidence: 99%

Laboratory-on-a-Smartphone

Mitsushio
1
2020
ANAL. SCI.
4
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