Your search keyword '"Kojić, Sanja"' showing total 8 results

1. Microstructural, Thermoelectric and Mechanical Properties of Cu Substituted NaCo2O4

Author

Perać, Sanja, M.Savić, Slavica, Branković, Zorica, Bernik, Slavko, Radojković, Aleksandar, Kojić, Sanja, Vasiljević, Dragana, Branković, Goran, Perać, Sanja, M.Savić, Slavica, Branković, Zorica, Bernik, Slavko, Radojković, Aleksandar, Kojić, Sanja, Vasiljević, Dragana, and Branković, Goran

Published

2022

2. Nanotopography Evaluation of NiTi Alloy Exposed to Artificial Saliva and Different Mouthwashes.

Author

Bobić, Zoran, Kojić, Sanja, Stojanović, Goran M., Terek, Vladimir, Kovačević, Lazar, and Terek, Pal

Subjects

*MOUTHWASHES, *NICKEL-titanium alloys, *ARTIFICIAL saliva, *ALLOYS, *ATOMIC force microscopy, *SURFACE roughness, *GRAIN

Abstract

Nitinol (NiTi) alloy is a widely used material for the production of orthodontic archwires. Its corrosion behavior in conditions that exist in the oral cavity still remains a great characterization challenge. The motivation behind this work is to reveal the influence of commercially available mouthwashes on NiTi orthodontic archwires by performing non-electrochemical corrosion tests and quantifying the changes in the nanotopography of commercially available NiTi orthodontic wires. In this study, we examined the behavior of NiTi alloy archwires exposed for 21.5 days to different corrosive media: artificial saliva, Eludril®, Aquafresh®, and Listerine®. The corrosion was characterized by contact mode atomic force microscopy (AFM) before and after the corrosion tests. A novel analysis methodology was developed to obtain insight into locations of material gain or material loss based on standard surface roughness parameters Sa, Sdr, Ssk, and S10z. The developed methodology revealed that fluoride-containing mouthwashes (Aquafresh® and Listerine®) dominantly cause material loss, while chloride-containing mouthwash (Eludril®) can cause both material loss and material gain. The sample exposed to artificial saliva did not display significant changes in any parameter. [ABSTRACT FROM AUTHOR]

Published

2022

3. Gold Leaf-Based Microfluidic Platform for Detection of Essential Oils Using Impedance Spectroscopy.

Author

Sinha, Ankita, Stavrakis, Adrian K., Simić, Mitar, Kojić, Sanja, and Stojanović, Goran M.

Subjects

ESSENTIAL oils, IMPEDANCE spectroscopy, DRUG delivery systems, MICROFLUIDIC devices, GOLD, CONTROLLED release drugs, EUCALYPTUS

Abstract

Drug delivery systems are engineered platforms for the controlled release of various therapeutic agents. This paper presents a conductive gold leaf-based microfluidic platform fabricated using xurography technique for its potential implication in controlled drug delivery operations. To demonstrate this, peppermint and eucalyptus essential oils (EOs) were selected as target fluids, which are best known for their medicinal properties in the field of dentistry. The work takes advantage of the high conductivity of the gold leaf, and thus, the response characteristics of the microfluidic chip are studied using electrochemical impedance spectroscopy (EIS) upon injecting EOs into its micro-channels. The effect of the exposure time of the chip to different concentrations (1% and 5%) of EOs was analyzed, and change in electrical resistance was measured at different time intervals of 0 h (the time of injection), 22 h, and 46 h. It was observed that our fabricated device demonstrated higher values of electrical resistance when exposed to EOs for longer times. Moreover, eucalyptus oil had stronger degradable effects on the chip, which resulted in higher electrical resistance than that of peppermint. 1% and 5% of Eucalyptus oil showed an electrical resistance of 1.79 kΩ and 1.45 kΩ at 10 kHz, while 1% and 5% of peppermint oil showed 1.26 kΩ and 1.07 kΩ of electrical resistance at 10 kHz respectively. The findings obtained in this paper are beneficial for designing suitable microfluidic devices to expand their applications for various biomedical purposes. [ABSTRACT FROM AUTHOR]

Published

2022

4. Role of Nanomaterials in the Fabrication of bioNEMS/MEMS for Biomedical Applications and towards Pioneering Food Waste Utilisation.

Author

Dahlan, Nuraina Anisa, Thiha, Aung, Ibrahim, Fatimah, Milić, Lazar, Muniandy, Shalini, Jamaluddin, Nurul Fauzani, Petrović, Bojan, Kojić, Sanja, and Stojanović, Goran M.

Subjects

FOOD waste, CARBON nanotubes, NANOSTRUCTURED materials, DRUG delivery systems, BIOSENSORS, NANOELECTROMECHANICAL systems, MAGNETIC nanoparticles, MESOPOROUS silica

Abstract

bioNEMS/MEMS has emerged as an innovative technology for the miniaturisation of biomedical devices with high precision and rapid processing since its first R&D breakthrough in the 1980s. To date, several organic including food waste derived nanomaterials and inorganic nanomaterials (e.g., carbon nanotubes, graphene, silica, gold, and magnetic nanoparticles) have steered the development of high-throughput and sensitive bioNEMS/MEMS-based biosensors, actuator systems, drug delivery systems and implantable/wearable sensors with desirable biomedical properties. Turning food waste into valuable nanomaterials is potential groundbreaking research in this growing field of bioMEMS/NEMS. This review aspires to communicate recent progress in organic and inorganic nanomaterials based bioNEMS/MEMS for biomedical applications, comprehensively discussing nanomaterials criteria and their prospects as ideal tools for biomedical devices. We discuss clinical applications for diagnostic, monitoring, and therapeutic applications as well as the technological potential for cell manipulation (i.e., sorting, separation, and patterning technology). In addition, current in vitro and in vivo assessments of promising nanomaterials-based biomedical devices will be discussed in this review. Finally, this review also looked at the most recent state-of-the-art knowledge on Internet of Things (IoT) applications such as nanosensors, nanoantennas, nanoprocessors, and nanobattery. [ABSTRACT FROM AUTHOR]

Published

2022

5. The Measurement of Contact Angle, pH, and Conductivity of Artificial Saliva and Mouthwashes on Enamel, Glass-Ionomer, and Composite Dental Materials.

Author

Qureshi, Saima, Milić, Lazar, Petrović, Bojan, Vejin, Marija, Kojić, Sanja, Jarić, Stefan, and Stojanović, Goran

Subjects

CONTACT angle, COMPOSITE materials, MOUTHWASHES, ARTIFICIAL saliva, DENTAL materials, DENTAL enamel, ENAMEL & enameling

Abstract

The aim of this study was to tackle the topic of appropriate recommendations for artificial-saliva and mouthwash usage. The contact angle, pH, and conductivity of two artificial saliva solutions, four mouthwashes, and their mixtures on enamel, glass-ionomer, and composite dental materials were measured. The measurements were conducted with a MATLAB algorithm to minimize human error. The obtained values for the contact angle were in the range from 7.98° to 52.6°, and they showed completely nonlinear and nonuniform behavior for all investigated liquids and on all investigated substrates. Results reveal statistically significant differences among all tested liquids on all investigated substrates (p < 0.05). pH values ranged from 1.54 to 7.01. A wide range of conductivity values were observed, from 1205µS/cm in the saliva-stimulating solution to 6679 mS/cm in the artificial saliva. Spearman's test showed a moderate positive correlation between the pH and conductivity of the tested fluids (R = 0.7108). A comparison of the data obtained using Image J software and the MATLAB algorithm showed consistency, not exceeding 5% error. When an experiment uses human material and bioactive materials THAT are used in biomedicine as substrates, an additional definition of protocols is highly recommended for future research on this topic. [ABSTRACT FROM AUTHOR]

Published

2022

6. Microstructural, Thermoelectric and Mechanical Properties of Cu Substituted NaCo 2 O 4.

Author

Perać, Sanja, Savić, Slavica M., Branković, Zorica, Bernik, Slavko, Radojković, Aleksandar, Kojić, Sanja, Vasiljević, Dragana, and Branković, Goran

Subjects

SEEBECK coefficient, ELECTRICAL resistivity, THERMAL conductivity, CITRIC acid, MICROSTRUCTURE, THERMOELECTRIC materials, POWDERS

Abstract

Polycrystalline samples of NaCo2−xCuxO4 (x = 0, 0.01, 0.03, 0.05) were obtained from powder precursors synthesized by a mechanochemically assisted solid-state reaction method (MASSR) and a citric acid complex method (CAC). Ceramic samples were prepared by pressing into disc-shaped pellets and subsequently sintering at 880 °C in an argon atmosphere. Effects of low concentrations of Cu doping and the above-mentioned synthesis procedures on the thermoelectric and mechanical properties were observed. The electrical resistivity (ρ), the thermal conductivity (κ) and the Seebeck coefficient (S) were measured simultaneously in the temperature gradient (ΔT) between the hot and cold side of the sample, and the figure of merit (ZT) was subsequently calculated. The ZT of the CAC samples was higher compared with the MASSR samples. The highest ZT value of 0.061 at ΔT = 473 K was obtained for the sample with 5 mol% of Cu prepared by the CAC method. The CAC samples showed better mechanical properties compared to the MASSR samples due to the higher hardness of the CAC samples which is a consequence of homogeneous microstructure and higher density obtained during sintering of these samples. The results confirmed that, besides the concentration of Cu, the synthesis procedure considerably affected the thermoelectric and mechanical properties of NaCo2O4 (NCO) ceramics. [ABSTRACT FROM AUTHOR]

Published

2022

7. Microfluidic Platform for Examination of Effect of Chewing Xylitol Gum on Salivary pH, O 2, and CO 2.

Author

Podunavac, Ivana, Hinić, Stevan, Kojić, Sanja, Jelenčiakova, Nina, Radonić, Vasa, Petrović, Bojan, Stojanović, Goran M., and Chrcanovic, Bruno

Subjects

CHEWING gum, CARBON dioxide, XYLITOL, PH effect, SALIVARY glands, SALIVA

Abstract

Miniaturization of different measurement processes and a scaled-down approach open the possibility for rapid measurements with the small amounts of samples and reagents into a compact platform with integrated sensors and different measuring components. In this paper, we report a microfluidic approach for measurements of salivary pH, dissolved O2, and CO2 during chewing xylitol gum. The study was done with the samples of 30 healthy volunteers who were chewing a xylitol gum, and the measurements were performed in the microfluidic (MF) chip with integrated commercial PreSens sensors. Xylitol exhibited a significant effect on the pH of saliva in terms of its initial drop, which was the most significant between the 5th and 10th minutes. The effect of xylitol on the amount of oxygen and carbon dioxide in saliva cannot be confirmed. The employed microfluidic platform was shown to be applicable and effective in the analysis of salivary biomarkers relevant to caries development. [ABSTRACT FROM AUTHOR]

Published

2021

8. Performance Evaluation of Dental Flosses Pre- and Post-Utilization.

Author

Stavrakis, Adrian K., Kojić, Sanja, Petrović, Bojan, Nešković, Isidora, and Stojanović, Goran M.

Subjects

*ORAL hygiene products, *DENTAL floss, *SCANNING electron microscopy, *MICROSCOPY, *CLINICAL indications

Abstract

Dental floss is an oral hygiene product used to remove food and plaque in places where toothbrushes cannot reach. Even though over the years since its introduction some research in suitable materials has been performed, thread cracking and wear can still compromise efficiency. The aim of this study was to examine the morphological properties of four different commercially available dental floss types before and after use. For that purpose, scanning electron microscopy and optical microscopy were used to assess the flosses before and after use, and tension testing was performed to determine any degradation in the floss performance after utilization. The analyzed floss samples verify the hypothesis that the properties of the floss need to be known in depth, before recommending a specific type to patients for daily use in all clinical indications. [ABSTRACT FROM AUTHOR]

Published

2022