-
eWEAR: A key to assembling materials on the surface of live neurons
-
eWEAR: Improving performance of polymer semiconductors with metal-ligand based mechanophores
-
eWEAR: Strain-insensitive stretchable electronics for wearables
-
eWEAR: Stretchable Battery Underpinned by Supramolecular Chemistry
-
eWEAR: Monitoring of Intra-Tumoral Drug Pharmacokinetics In Vivo With Implantable Sensors
-
eWEAR: Nanostructured Electrodes Improve Sensor Sensitivity with Faster Electron Transfer
-
eWEAR: Implantable device for wirelessly controlled drug delivery
-
eWEAR: Stanford scientists uncover how brain regions keep each other on track
-
eWEAR: A Window into Maternal Health Through Hair Cortisol
-
eWEAR: Finding brain patterns underlying depression: linking functional neuroimaging to symptom subtypes
