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7 results on '"Zulfa, Vinda Zakiyatuz"'

1. Comparison of nanostructure arrangement with combination of thin film of gold and silver as an optical leukemia biosensor: Simulation study.

Author

Farahdina, Ulya, Zulfa, Vinda Zakiyatuz, Endarko, Endarko, Nasori, Nasori, and Rubiyanto, Agus

Subjects
*THIN films, *GOLD films, *GLASS coatings, *BIOSENSORS, *FINITE differences, *EARLY detection of cancer
Abstract

Combinations of various types and structures of materials were developed to obtain highest sensitivity of biosensor. The optical analysis of the electric field simulation results was used to determine the best arrangement of thin layer and nanostructures Au and Ag electrodes as an optical biosensor for blood cancer detection. This study used a finite difference time domain (FDTD) to simulate the electric field distribution and analyze the optical properties of the biosensor. This research was conducted by making an anodic aluminum oxide (AAO) as mold of a nanostructure whose hole dimensions will be used as a model of the nanostructure in the simulation. The holes in AAO are circles with a diameter of 90 nm and the distance between holes is 25 nm. The structural model for electric field simulation is a glass substrate coated with an Ag thin film/Au nanostructure, Au thin film/Ag nanostructures, arrays of Ag/Au nanostructures, and arrays of Au/Ag nanostructures. The top side of the nanostructure arrangement and thin film will be deposited with normal blood cells and leukocytes. The electric field distribution shows that the Ag thin film/Au nanostructure is the best combination electrode of nanostructures and thin film of Ag and Au for the detection of blood cancer because of the highest difference of absorbance intensity and absorbance peak wavelength, which is 8.66 nm. These results provide a preliminary interpretation of the arrangement of nanostructures and thin film of gold and silver for optical blood cancer detection as biomedical device. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Low Albumin Determination as a Biomarker Cancer with Cyclic Voltammetry in Agfilm/ITO and AgNOfilm/ITO Electrodes.

Author

Zulfa, Vinda Zakiyatuz, Farahdina, Ulya, Aziz, Ihwanul, Nasori, Nasori, Endarko, Endarko, Rhomadhoni, Muslikha Nourma, and Rubiyanto, Agus

Subjects
*CYCLIC voltammetry, *VOLTAMMETRY, *ALBUMINS, *ELECTRODES, *INDIUM tin oxide, *LYSOZYMES, *SPUTTER deposition
Abstract

Ag and AgNO film were fabricated through sputter deposition on indium tin oxide (ITO) conductive glass. Electrochemical detection using cyclic voltammetry (CV) was carried out for low albumin levels in blood as a parameter of cancer patients. This study aims to determinate low albumin level as a biomarker cancer. Albumin adsorption on the Agfilm/ITO and AgNOfilm/ITO was also investigated to determine the level of sensitivity of both electrodes. Analysis of the CV measurements indicated that the Agfilm/ITO electrode was more sensitive compared to the AgNOfilm/ITO electrode, with a sensitivity value of 4.564 µA M-1cm-2 for the Agfilm/ITO electrode and 2.123 µA M-1cm-2 for the AgNOfilm/ITO electrode. The testing of albumin levels in blood within a range of low concentration levels between 10-1 and 10-8 g/dL indicated a detection limit of 10-9 g/mL. The selectivity of Ag electrodes was found to be very good for other interfering molecules such as urine, glucose, and lysozyme. The results of the modeling of electric field and magnetic field distribution showed that the Agfilm/ITO electrode possessed larger values than the AgNOfilm/ITO electrode. From this analysis, it can be concluded that the electrode modified with micro-sized Ag achieved more effective results than the electrode modified with AgNO. This sensor can determine low albumin level as a blood cancer biomarker. This sensor holds great promise for use in real samples in the future. [ABSTRACT FROM AUTHOR]

Published
2023
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5. A Comparison between Silver Nanosquare Arrays and Silver Thin-Films as a Blood Cancer Prognosis Monitoring Electrode Design Using Optical and Electrochemical Characterization

Author

Nasori, Nasori, primary, Farahdina, Ulya, additional, Zulfa, Vinda Zakiyatuz, additional, Firdhaus, Miftakhul, additional, Aziz, Ihwanul, additional, Darsono, Darsono, additional, Cao, Dawei, additional, Wang, Zhijie, additional, Endarko, Endarko, additional, and Rubiyanto, Agus, additional

Published
2021
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7. Magnetic field distribution of silver blood cancer with finite difference time domain (FDTD) simulation.

Author

Zulfa, Vinda Zakiyatuz, Farahdina, Ulya, Firdhaus, Muhammad, Aziz, Ihwanul, Nasori, Darsono, and Rubiyanto, Agus

Subjects
*MAGNETIC fields, *HEMATOLOGIC malignancies, *REFRACTIVE index, *ELECTRODES, *WAVELENGTHS
Abstract

The protein contained in blood cancer is more than normal blood cells. This can be used as a parameter to determine the refractive index of a cell. The refractive index can affect the value of the magnetic field that can be received or transmitted. A time domain approach using normal blood cells and blood cells was analyzed. In this simulation electrode with difference size is used. The visible light with 200-800 nm wavelength is emitted in electrode surface to study the magnetic field. The results of this study are expected to provide interpretation of blood cancer using the nanostructured Ag sensor. [ABSTRACT FROM AUTHOR]

Published
2021
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