That patent pending device samples the ambient atmosphere and measures the mass of particles. Functionality of that portable device has been extended so it is now self cleaning.

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Brief Description There is growing interest in ubiquitous monitoring of the ambient atmosphere indoors and outdoors. To address this opportunity, low-cost, fixed and portable particulate monitors are under development.  UC Berkeley researchers developed a portable particulate monitor. That patent pending device samples the ambient atmosphere and measures the mass of particles. UC Berkeley researchers have expanded the functionality of that portable device to include the analysis and identification of particles that it senses. The enhanced device can also clean itself of particles and thereby extend its operating life.  The Berkeley monitor can determine the concentration of particles in the ambient air such as particles produced from combustion, emission or distribution of bioaerosols, bacterial aerosols, allergens (i.e. pollen), and gaseous pollutants. It could therefore could be used to alert users to the presence of allergens, particles that are harmful to inhale (i.e. silica), as well as toxic or explosive gases. In addition to portable applications, these devices could be permanently installed in buildings, HVAC systems and forced-air furnaces. Suggested uses Inexpensive and thereby widespread measurement of airborne particulate matter concentrations such as diesel exhaust, woodsmoke, tobacco smoke and potentially pollen. The monitors can be situated on buildings, electricity distribution and transmission lines, and other infrastructure, as well as in mobile applications such as on individuals and vehicles (i.e. cars, buses, trucks and trains). Advantages Increases sensitivity                                                                                                                             Reduces temperature sensitivity                                                                                                                     Reduces power requirements                                                                                                           Reduces size and costs                                                                                                                 Eliminates the need for vertically orienting the device to maintain a vertical airflow            Analyzes data without the need for bulky, expensive equipmentCouples to a location-aware mobile device (i.e. cell phone) to enable geographical analysis of particulates. 

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