A group of researchers and scientists working out of Stanford University are developing a high-tech marijuana breathalyzer that is designed to be potentially used by law enforcement personnel to assess whether drivers are dangerously high on the road.
This particular marijuana breathalyzer technology works by measuring the amount of THC in saliva. It is precise enough to be able to detect THC to a level of zero to 50 nanograms per milliliter of saliva by making use of special magnetic biosensors.
This marijuana breathalyzer is an important innovation in the prevailing atmosphere where cannabis is becoming legalized in many jurisdictions. While there still needs to be a lot of research done to understand how different individual levels of tolerance impact a driver's ability to drive safely under the influence of marijuana, this marijuana breathalyzer will help law enforcement to assess situations more objectively.
Magnetic Marijuana Breathalyzers
This Breathalyzer Uses High-Tech Magnetic Biological Sensors
Trend Themes
1. Marijuana Detection Technology - The development of high-tech marijuana breathalyzers highlights the need for more advanced and accurate methods of detecting cannabis use.
2. Magnetic Biosensors - The use of magnetic biosensors in this marijuana breathalyzer could disrupt the way drug testing is currently done.
3. Driving Safety - The focus on driving safety and cannabis use poses an opportunity for more innovations that promote safe driving practices.
Industry Implications
1. Law Enforcement - The development of this marijuana breathalyzer technology presents an opportunity for law enforcement to better enforce DUI laws and keep roads safe.
2. Marijuana Industry - The need for accurate detection of marijuana use for driving could lead to innovations in product development and testing within the marijuana industry.
3. Healthcare - The use of magnetic biosensors in detection technology presents disruptive innovation opportunities for healthcare professionals in areas such as diagnostics and treatment monitoring.