MELİS BİLAL scite author profile

MELİS BİLAL

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Single-side polypyrrole coated conductive and flexible polyurethane films

BİLAL¹,

SEZER²,

USTAMEHMETOGLU³

2022

Turkish Journal of Chemistry

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In this study, single-side polypyrrole (PPy) coated conductive stretchable polyurethane (PU) / PPy composite films were synthesized by chemical oxidative method in the acetonitrile (ACN)/H 2 O interface as a new alternative to two-side coated PU films which have already reported in the literature. One surface of the PU film was contacted with aqueous Py solution and the other surface with cerium ammonium nitrate (CAN) solution in ACN, so that only one surface of the film was coated with PPy and the resulting composite was named PU/PPy (PUP). This composite was characterized by four-point probe conductivity measurement, Fourier-transform infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), scanning electron microscopy (SEM) measurements, and mechanical testing. The thickness of PPy coating was determined as 16 μm, by using polarized microscope imagines of crosssection of film. T g value of the composite was obtained as −60.38 °C and the highest conductivity of PPy coated side of PU was obtained as 3.5 × 10 −4 S cm −1 , while the back side of PU film was still insulator.

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Ultrasound phantom with solids mimicking cancerous tissue for needle breast biopsy

YAYLA¹,

BİLAL²,

SALMASLIOĞLU³

et al. 2022

Turkish Journal of Chemistry

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This study aimed at synthesizing hydrogels to simulate opaque breast tissue (BT) and coloured cancerous tissues (CT) at different densities of the designed phantom to improve the biopsy-related skills along with ultrasonography. Both tissues are tear-resistant and therefore, the phantom can be trained multiple times in order to lower the price and improve the eye-hand coordination of users. For this purpose, self-healing (SH) polyacrylamide (PAAm) hydrogels (SH hydrogel) obtained by free-radical polymerization of AAm, in the presence of chemical cross-linker, BAAm, physical cross-linker stearyl methacrylate, C18, and ammonium persulfate APS as initiator were used in the design of phantoms. Psyllium was added to the BT to differentiate density and obtain human skin color and it could be distinguished from the CT which was also colored with methyl violet. BT and CTs were characterized with FTIR spectroscopy, mechanical, swelling, and refractive index measurements. Designing phantoms from BT and CT were characterized by ultrasonography, mechanical tests, observation of needle track after biopsy, and stabilization tests to follow the self-healing behaviours of tissues with time. As a result of this study, self-healing, low-cost, and suitable for multi-usage ultrasonographic phantom for needle breast biopsy was designed and cancerous tissue was successfully detected.

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MELİS BİLAL

Single-side polypyrrole coated conductive and flexible polyurethane films

Ultrasound phantom with solids mimicking cancerous tissue for needle breast biopsy

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