| Bibliographic Entry | Result (w/surrounding text) |
Standardized Result |
||||||
|---|---|---|---|---|---|---|---|---|
| Pastor-Moreno, Gustavo. Electrochemical Applications of CVD Diamond. University of Bristol. July 2002. | "Resistivity of undoped diamond ~1016 Ω·cm" | ~1018 Ω·m | ||||||
| Saada, David. Diamond and graphite properties. Technion - Israel Institute of Technology - טכניון. | "Diamond is an insulator at room temperature, with a resistivity larger than 1012 Ω·cm" | ~1014 Ω·m | ||||||
| Astronomy Knowledge Base - Carbon. Fact Guru. University of Ottawa. | "has electrical resistivity 1 × 1011 Ω m for diamond at 293 K" | 1011 Ω·m | ||||||
| Berman, R. Physical Properties of a Diamond. Northern Ireland: Oxford, 1965: 9. | "The type IIb property is present to a varying extent and there is probably range from insulating diamonds, whose resistance at room temperature is 5 × 1014 Ω·cm" | 5 × 1016 Ω·m | ||||||
| May, Paul W. Some Important Properties of Diamond. CVD Diamond - a new Technology for the Future. University of Bristol. 1995. |
|
1015-1018 Ω·m |
Most people associate diamonds with the most precious brilliant transparent gemstone. The diamond is a natural crystalline substance. It is found naturally deep within the earth's surface. It forms deep in the earth's interior and is shot up to the surface by volcanoes. A diamond is the oldest thing you will ever own, it is almost three billion years old (2/3 the age of earth!). A diamond is carbon in its most concentrated form. It is a native element, and extremely pure.
A diamond has amazing strength and extraordinary properties. The diamond is transparent to ultraviolet, visible and infrared radiation This element has the hardest surface area, and even has the ability to slow light down to half its speed. When compared to any other material, the diamond is the least compressible, the stiffest, and has a negative electron affinity. Diamonds are good thermal conductors as well as good insulators.
The diamond also has a high electrical resistivity:1011 to 1018 Ω·m. In a diamond, every carbon atom shares and electron with each of four adjacent carbon atoms. This sharing forms the strongest known chemical link, a covalent bond. The bond it forms explains its high resistivity. As the bond becomes stronger, the resistance increases and its electric current decreases. It is the arrangement of the carbon atoms that give the diamond its amazing properties.
Sarah Fromentin -- 2004