Fibre optic oxygen sensor based on fluorescence quenching of evanescent-wave excited ruthenium complexes in sol–gel derived porous coatings

MacCraith, Brian D.; McDonagh, Colette; O'Keeffe, Gerard; Keyes, Tia E.; Vos, Johannes G.; O’Kelly, Brendan C.; McGilp, J. F.

doi:10.1039/an9931800385

Cited by 216 publications

(106 citation statements)

References 8 publications

Supporting

Mentioning

106

Contrasting

Order By: Relevance

“…While this is a significant reduction compared to the initial value for an uncovered film, it is still larger than a ratio I 0 /I 100 of 3, with which a sensor is commonly considered a suitable oxygen sensing device. 13 The fact that the intensity ratio remains high enough for in-situ use despite this reduction is a direct result of the sensor fabrication process used, which allows one to repeatedly deposit homogeneous films with a high intensity ratio 6 . In addition, the solid-state nature of the sensor significantly reduces the amount of dye needed compared to dissolved sensors and reduces the contact between the biomaterials and sensor through encapsulation in the PS matrix.…”

Section: Resultsmentioning

confidence: 99%

Oxygen Control For Bioreactors And In‐vitro Cell Assays

Nock

Blaikie²,

Todem³

2009

AIP Conference Proceedings

View full text Add to dashboard Cite

Abstract. Dissolved oxygen (DO) is an important parameter in biomedical and cell-culture applications. Several studies have found cell survival and function to be intimately linked to oxygen concentration. Laminar flow, as observed in microfluidic devices, provides an ideal environment to manipulate and control concentration gradients. In this paper we demonstrate the first characterization of integrated fluorescence-based oxygen sensors for DO measurement within a cell-culture bioreactor device. Solid-state PtOEPK/PS sensor patterns were integrated into the PDMS-based bioreactor and calibrated for detection of DO concentration with a superimposed layer of collagen and Ishikawa human endometrial cancer cells. The sensor signal of the layer subjacent to the cells was found to follow a Stern-Volmer model and the intensity ratio was measured to I 0 /I 100 = 3.9 after 3 days in culture. The device provides a novel tool for the control and spatially-resolved measurement of oxygen levels in cellular assays and cell-culture applications.

show abstract

Section: Resultsmentioning

confidence: 99%

Oxygen Control For Bioreactors And In‐vitro Cell Assays

Nock

Blaikie²,

Todem³

2009

AIP Conference Proceedings

View full text Add to dashboard Cite

show abstract

“…Potyrailo & Hieftje, 1999) An alternative strategy to increase n clad in the sensing region of a de-clad fiber is the application of a sol-gel cladding containing an analyte sensitive dye. (Browne et al, 1996;Kao et al, 1998;MacCraith et al, 1993;O'Keeffe et al, 1995) A second method to match the V-number between the clad and unclad sensing region of fiber optic sensors is to decrease r in the sensing region through etching the declad fiber. Fluorescent fiber sensors, where the de-clad sensing region has been step-or taper-etched, exhibit a 20 to 50 fold improvement in sensitivity.…”

Section: Fiber Optic Based Fluorescence Sensorsmentioning

confidence: 99%

Applications of the Planar Fiber Optic Chip

Beam¹,

Burnett²,

Webster³

et al. 2012

Recent Progress in Optical Fiber Research

View full text Add to dashboard Cite

“…Examples are sol-gel [147,152,154,249], ethyl cellulose or PVC membranes [61], different types of ORMOSILs [39,94,106], polystyrene [91], polysulfones [11,18], poly (dimethylsiloxane) alone [251] or with different amounts of pendant acrylate groups [168], and a blended fluoropolymer matrix consisting of Nafion ® and Aflas ® [83]. In another approach, the [Ru(dpp) 3 ] 2+ complex was adsorbed onto silica and then dispersed in a silicone rubber support [38,93].…”

Section: Transition Metal Polypyridyl Complexesmentioning

confidence: 99%

Indicators for optical oxygen sensors

Borisov¹,

Quaranta²,

Klimant³

2012

Advances in Chemical Bioanalysis

View full text Add to dashboard Cite

Continuous monitoring of oxygen concentration is of great importance in many different areas of research which range from medical applications to food packaging. In the last three decades, significant progress has been made in the field of optical sensing technology and this review will highlight the one inherent to the development of oxygen indicators. The first section outlines the bioanalytical fields in which optical oxygen sensors have been applied. The second section gives the reader a comprehensive summary of the existing oxygen indicators with a critical highlight on their photophysical and sensing properties. Altogether, this review is meant to give the potential user a guide to select the most suitable oxygen indicator for the particular application of interest.

show abstract

Fibre optic oxygen sensor based on fluorescence quenching of evanescent-wave excited ruthenium complexes in sol–gel derived porous coatings

Cited by 216 publications

References 8 publications

Oxygen Control For Bioreactors And In‐vitro Cell Assays

Oxygen Control For Bioreactors And In‐vitro Cell Assays

Applications of the Planar Fiber Optic Chip

Indicators for optical oxygen sensors

Contact Info

Product

Resources

About