SBIR-STTR Award

A Multi-Analyte Device for Air Quality Monitoring
Award last edited on: 8/20/15

Sponsored Program
SBIR
Awarding Agency
NIH : NIEHS
Total Award Amount
$227,662
Award Phase
1
Solicitation Topic Code
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Principal Investigator
Xiaojun Xian

Company Information

TF Health Corporation

2601 North 3rd Suite #108
Phoenix, AZ 85004
   (602) 283-4292
   N/A
   N/A
Location: Single
Congr. District: 07
County: Maricopa

Phase I

Contract Number: 1R43ES025095-01
Start Date: 12/1/14    Completed: 11/30/15
Phase I year
2015
Phase I Amount
$220,062
Air quality affects the health and well-being of each of us, especially those with chronic respiratory diseases. Acute exposure to fatal levels of hazard materials causes millions of accidents every year, and unnoticed long- term exposure to lower levels of chemicals affect far more people. Various technologies have been developed to monitor air quality, but none of them is capable of detecting multiple chemicals in a user-friendly and affordable manner. This project will focus on creating an integrated multi-analyte device for monitoring personal environmental exposure. The target analytes include ozone, nitrogen dioxide, sulfur dioxide, and formaldehyde, which are identified as major indoor and outdoor pollutants by Environmental Protection Agency, World Health Organization, and Occupational Safety and Health Administration. Such a device, if successfully developed and validated, will have a profound impact on the protection of workers, reduction of environmental disease triggers, and prevention of respiratory diseases. The project will bring together strengthens in chemical sensor development and commercialization from TF Health Co., and Center for Bioelectronics and Biosensors, the Biodesign Institute, at Arizona State University. In phase I, the team will 1) develop sensing elements based on hierarchical sensing materials, 2) optimize the sensing elements to achieve high humidity and temperature tolerance, and 3) develop an adaptive sampling algorithm to achieve continuous monitoring capability. In phase II, we will 1) integrate the sensing elements together with digital circuits, optoelectronic detection chamber, sampling system, and software, 2) perform rigorous analytical validation with standard analytical equipment, and 3) perform pilot field tests under both indoor and outdoor settings.

Public Health Relevance Statement:


Public Health Relevance:
This project will create an integrated device that can monitor multiple toxic chemicals in air, including ozone, nitrogen dioxide, sulfur dioxide, and formaldehyde, for indoor and outdoor air quality monitoring, and for occupational safety and health.

Project Terms:
Accidents; Acute; Affect; Air; air monitoring; Air Pollutants; air sampling; Algorithms; Arizona; base; Binding (Molecular Function); Biosensor; Buffers; catalyst; Chemicals; Chronic; commercialization; design; Detection; Development; Devices; digital; Disease; dosage; Elements; Environmental Exposure; Environmental Health; Equipment; Exposure to; flexibility; Formaldehyde; Goals; hazard; Health; Home environment; Hour; Humidity; Industry; innovative technologies; Institutes; Lung diseases; Marketing; Measures; Methods; Molecular; Molecular Probes; Monitor; monitoring device; Nitrogen Dioxide; occupational health/safety; Ozone; Patients; Personal Satisfaction; Phase; Plastics; Poisons; pollutant; prevent; Prevention; Printing; Reaction; Reagent; Risk; Sampling; sensor; software systems; Solutions; Structure; Sulfur Dioxide; System; Technology; Temperature; Testing; United States Environmental Protection Agency; United States Occupational Safety and Health Administration; Universities; user-friendly; Validation; Variant; Work; World Health Organization

Phase II

Contract Number: ----------
Start Date: 00/00/00    Completed: 00/00/00
Phase II year
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Phase II Amount
$7,600