grant

EAGER: Enzymatic Perturbation Specificity Test for Self-Validating, In-Situ Regenerable Nanoengineered Molecularly Imprinted Polymer Sensors in Interstitial Fluid

Organization University of California-IrvineLocation IRVINE, United StatesPosted 1 May 2026Deadline 30 Apr 2028
NSFUS FederalResearch GrantScience FoundationCA
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Description preview

Wearable and point of care biosensors can deliver earlier and more personalized health information than laboratory tests. However, many sensors cannot verify that the signals they produce truly come from a targeted molecule, especially in a complex and changing biofluid. This project will develop a built in “specificity check” for sensors…

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EAGER: Enzymatic Perturbation Specificity Test for Self-Validating, In-Situ Regenerable Nanoengineered Molecularly Impri | Dev Procure