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A Miniature Monitor for Time-Resolved Airborne Particle Chemistry
Principal Investigator
Hering, Susanne
Institute Receiving Award
Aerosol Dynamics,, Inc.
Location
Berkeley, CA
Grant Number
R44ES014997
Funding Organization
National Institute of Environmental Health Sciences
Award Funding Period
16 Sep 2006to28 Feb 2010
DESCRIPTION (provided by applicant A miniature, battery-powered monitor will be developed for measurement of hourly concentrations of chemical constituents of PM2.5 aerosols that are important to human exposure. The method utilizes a laminar-flow, water condensation method to provide a concentrated, "ready-to-analyze" deposit of ambient particles. Many deposits will be contained on a single collection wafer designed for automatic analysis by common liquid chromatographic methods. The objective is wide-scale, inexpensive time-resolved monitoring of individual constituents of ambient particulate matter for personal exposures assessment. PUBLIC HEALTH RELEVANCE: Proposed is the development of a compact, battery powered monitor to provide time-resolved measurements of personal exposures to many of the toxic chemical components of PM2.5. Short- term exposures to high levels may be important for understand the respiratory and cardiovascular health effects of exposure. This research improves the time-resolution and the range of chemical components that can be measured in personal monitoring studies.