Summary of New Sensor could sniff out Land Mines
Researchers at UC Berkeley have developed a highly sensitive plasmon laser-based sensor capable of detecting trace amounts of explosive chemicals in land mines. The sensor utilizes a layered structure with magnesium fluoride, cadmium sulfide, and silver to enhance light sensitivity. Exploiting the electron-deficient nature of nitro-compound explosives like TNT and DNT, this sensor offers potential for in situ land mine detection, improving safety and mine clearance efforts.
Parts used in the Plasmon Laser Sensor for Land Mine Detection:
- Magnesium fluoride layer
- Semiconducting layer of cadmium sulfide
- Sheet of silver
A new type of sensor being developed by a team of researchers at the University of California, Berkeley based on Plasmon laser technology is so sensitive it may be able to detect the presence of land mines in situ. In a paper published recently in the journal ‘Nature Nanotechnology’ a team of researchers led by Xiang Zhang, UC Berkeley professor of mechanical engineering, have outlined how they have been able to find a way to increase the sensitivity of a light-based plasmon sensor to detect minute concentrations of explosives. The new sensor consists of a layer of magnesium fluoride sandwiched between a semiconducting layer of cadmium sulfide, and a sheet of silver.
According to the university press release the researchers took advantage of the chemical makeup of many explosives, particularly nitro-compounds such as DNT and its more well-known relative, TNT. Not only are these unstable nitro groups more explosive, they are also characteristically electron deficient,
More detail: New Sensor could sniff out Land Mines
