| About this Abstract |
| Meeting |
Materials Science & Technology 2020
|
| Symposium
|
Advances in Dielectric Materials and Electronic Devices
|
| Presentation Title |
The Synthetic Diamonds Electrical Conductivity with Fractal Correction |
| Author(s) |
Vojislav V. Mitic, Goran Lazovic, Vesna Paunovic, Ivana Radovic, Aleksandar Stajcic, Markus Mohr, Hans Fecht |
| On-Site Speaker (Planned) |
Vojislav V. Mitic |
| Abstract Scope |
Nano synthetic diamonds are considered to be a class of materials with intensively researched electrical conductivity. Favorable electrical properties of diamonds make them excellent candidates for the use in MEMS applied under various conditions. The origin of n-type conductivity at room temperature expressed in ultrafine nano synthesizes diamonds has become a very attractive topic for scientific investigations. Formation of nano-graphite over the grain boundary of diamond crystals strongly influenced the specific conductivity value, as well as any other structural change on the interface between grains. The investigations revealed that the increase of average formed grain size caused sharp decrease in the specific electrical conductivity value. The focus and goal of presented research is to form a connection between fractal approach and electrical conductivity phenomenon, as well as to introduce fractal correction and make bilateral correlation between them. |