Graph theory applied to microelectronics intergranular relations
Само за регистроване кориснике
2021
Аутори
Mitić, Vojislav V.Lazović, Goran
Randjelović, Branislav M.
Paunović, Vesna
Radović, Ivana
Stajcić, Aleksandar
Vlahović, Branislav
Чланак у часопису (Објављена верзија)
Метаподаци
Приказ свих података о документуАпстракт
The focus of this study is on the control of layers between grains by applying graph theory. We performed modification of BaTiO3 nanoparticles with Y2O3. The results of capacitance change on submicron level are the part of the measured values on the bulk samples. The original idea is to develop the new approach to use graph theory for networking of electronic parameters between the neighboring grains in order to compare the values measured on the sample, and to present them through the edges in graph between corresponding vertices. Capacitance change with DC bias was measured on bulk samples, and the modified nanoparticles showed stability up to 90 V. After using graph theory with the different number of neighboring grains and on different voltages, it has been shown that capacitance change can be successfully calculated on the layers between grains. Original calculations presented as 1D cases were performed, confirming graph application as a tool with which measured bulk results can b...e downsized to an appropriate intergranular level, opening the new perspectives in the area of miniaturization and micropackaging.
Кључне речи:
intergranular capacitance change / graph theory / electronic signal / computing technologyИзвор:
Ferroelectrics, 2021, 570, 1, 145-152Издавач:
- Taylor & Francis Ltd, Abingdon
DOI: 10.1080/00150193.2020.1839265
ISSN: 0015-0193
WoS: 000607319400014
Scopus: 2-s2.0-85097177409
Колекције
Институција/група
Mašinski fakultetTY - JOUR AU - Mitić, Vojislav V. AU - Lazović, Goran AU - Randjelović, Branislav M. AU - Paunović, Vesna AU - Radović, Ivana AU - Stajcić, Aleksandar AU - Vlahović, Branislav PY - 2021 UR - https://machinery.mas.bg.ac.rs/handle/123456789/3550 AB - The focus of this study is on the control of layers between grains by applying graph theory. We performed modification of BaTiO3 nanoparticles with Y2O3. The results of capacitance change on submicron level are the part of the measured values on the bulk samples. The original idea is to develop the new approach to use graph theory for networking of electronic parameters between the neighboring grains in order to compare the values measured on the sample, and to present them through the edges in graph between corresponding vertices. Capacitance change with DC bias was measured on bulk samples, and the modified nanoparticles showed stability up to 90 V. After using graph theory with the different number of neighboring grains and on different voltages, it has been shown that capacitance change can be successfully calculated on the layers between grains. Original calculations presented as 1D cases were performed, confirming graph application as a tool with which measured bulk results can be downsized to an appropriate intergranular level, opening the new perspectives in the area of miniaturization and micropackaging. PB - Taylor & Francis Ltd, Abingdon T2 - Ferroelectrics T1 - Graph theory applied to microelectronics intergranular relations EP - 152 IS - 1 SP - 145 VL - 570 DO - 10.1080/00150193.2020.1839265 ER -
@article{ author = "Mitić, Vojislav V. and Lazović, Goran and Randjelović, Branislav M. and Paunović, Vesna and Radović, Ivana and Stajcić, Aleksandar and Vlahović, Branislav", year = "2021", abstract = "The focus of this study is on the control of layers between grains by applying graph theory. We performed modification of BaTiO3 nanoparticles with Y2O3. The results of capacitance change on submicron level are the part of the measured values on the bulk samples. The original idea is to develop the new approach to use graph theory for networking of electronic parameters between the neighboring grains in order to compare the values measured on the sample, and to present them through the edges in graph between corresponding vertices. Capacitance change with DC bias was measured on bulk samples, and the modified nanoparticles showed stability up to 90 V. After using graph theory with the different number of neighboring grains and on different voltages, it has been shown that capacitance change can be successfully calculated on the layers between grains. Original calculations presented as 1D cases were performed, confirming graph application as a tool with which measured bulk results can be downsized to an appropriate intergranular level, opening the new perspectives in the area of miniaturization and micropackaging.", publisher = "Taylor & Francis Ltd, Abingdon", journal = "Ferroelectrics", title = "Graph theory applied to microelectronics intergranular relations", pages = "152-145", number = "1", volume = "570", doi = "10.1080/00150193.2020.1839265" }
Mitić, V. V., Lazović, G., Randjelović, B. M., Paunović, V., Radović, I., Stajcić, A.,& Vlahović, B.. (2021). Graph theory applied to microelectronics intergranular relations. in Ferroelectrics Taylor & Francis Ltd, Abingdon., 570(1), 145-152. https://doi.org/10.1080/00150193.2020.1839265
Mitić VV, Lazović G, Randjelović BM, Paunović V, Radović I, Stajcić A, Vlahović B. Graph theory applied to microelectronics intergranular relations. in Ferroelectrics. 2021;570(1):145-152. doi:10.1080/00150193.2020.1839265 .
Mitić, Vojislav V., Lazović, Goran, Randjelović, Branislav M., Paunović, Vesna, Radović, Ivana, Stajcić, Aleksandar, Vlahović, Branislav, "Graph theory applied to microelectronics intergranular relations" in Ferroelectrics, 570, no. 1 (2021):145-152, https://doi.org/10.1080/00150193.2020.1839265 . .