N. Skivesen scite author profile

The effect of the attachment and spreading of living cells on the modes of a grating coupled reverse symmetry waveguide sensor is investigated in real time. The reverse symmetry design has an increased probing depth into the sample making it well suited for the monitoring of cell morphology. As a result, significant changes in the incoupling peak height and peak shape were observed during cell attachment and spreading. It is suggested that the area under the incoupling peaks reflects the initial cell attachment process, while the mean peak position is mostly governed by the spreading of the cells.

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Deep-probe metal-clad waveguide biosensors

Skivesen

Horváth

Thinggaard³

et al. 2007

Biosensors and Bioelectronics

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Measurement of guided light-mode intensity: An alternative waveguide sensing principle

Horváth

Skivesen

Pedersen

2004

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N. Skivesen

Photonic-crystal waveguide biosensor

Optical waveguide sensor for on-line monitoring of bacteria

Monitoring of living cell attachment and spreading using reverse symmetry waveguide sensing

Deep-probe metal-clad waveguide biosensors

Measurement of guided light-mode intensity: An alternative waveguide sensing principle

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