I-Corps Team: Battery-Free, Millimeter-Scale Silicon Devices for Tempertature Monitoring — NSF Award to Missouri University of Sci
The broader impact/commercial potential of this I-Corps project is to assure the integrity of temperature regulated supply chains. In the pharmaceutical and food industries, temperature disruptions can cause loss of potency or safety, leading to adverse effects on public health and increased costs. For example, each of
| Award title | I-Corps Team: Battery-Free, Millimeter-Scale Silicon Devices for Tempertature Monitoring |
|---|---|
| Award ID | 2135463 |
| Awardee | Missouri University of Science and Technology |
| City | ROLLA |
| State | MO |
| Amount obligated | $50,000 |
| Principal investigator | Bonnie Bachman |
| Program | I-Corps |
| Start date | 07/15/2021 |
| Abstract | The broader impact/commercial potential of this I-Corps project is to assure the integrity of temperature regulated supply chains. In the pharmaceutical and food industries, temperature disruptions can cause loss of potency or safety, leading to adverse effects on public health and increased costs. For example, each of the current COVID-19 vaccines requires its own specific environmental conditions during transport, ranging from -70 C to 5 C. Excursions from this temperature range can lead to da |
| Source | NSF Awards |
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