Mehtap Özdemir scite author profile

The first use of electrospun nanofibrous materials as highly responsive fluorescence quenching-based optical CO(2) sensors is reported. Poly(methyl methacrylate) and ethyl cellulose were used as polymeric materials. Sensing slides were fabricated by electrospinning technique. A fiber-optic bundle was used for the gas detection. CO(2) sensors based on the change in the fluorescence signal intensity of ion pair form of 8-hydroxypyrene-1,3,6-trisulfonic acid (HPTS). The sensor slides showed high sensitivities due to the high surface area-to-volume ratio of the nanofibrous membrane structures. The preliminary results of Stern-Volmer analysis show that the sensitivities of electrospun nanofibrous membranes to detect CO(2) are 24 to 120 fold higher than those of the thin film based sensors. The response times of the sensing reagents were short and the signal changes were fully reversible. The stability of ion pair form of HPTS in the employed matrix materials was excellent and when stored in the ambient air of the laboratory there was no significant drift in signal intensity after 7 months. Our stability tests are still in progress.

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ITO/Au/ITO multilayer thin films on transparent polycarbonate with enhanced EMI shielding properties

Erdogan¹,

Erden

Astarlioglu³

et al. 2020

Current Applied Physics

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The controllable deposition of large area roll-to-roll sputtered ito thin films for photovoltaic applications

et al. 2020

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Emission based sub-nanomolar silver sensing with electrospun nanofibers

Kaçmaz¹,

Ertekin²,

Süslü³

et al. 2011

Sensors and Actuators B: Chemical

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Mehtap Özdemir

Surface free energy analysis of ITO/Au/ITO multilayer thin films on polycarbonate substrate by apparent contact angle measurements

Optical CO2 Sensing with Ionic Liquid Doped Electrospun Nanofibers

ITO/Au/ITO multilayer thin films on transparent polycarbonate with enhanced EMI shielding properties

The controllable deposition of large area roll-to-roll sputtered ito thin films for photovoltaic applications

Emission based sub-nanomolar silver sensing with electrospun nanofibers

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