Two vaccines in early development are stable under high temperatures and could be game changers in global vaccine equity.
Wearable brain-machine interface turns intentions into actions
Accurately measuring brain signals is critical to determining what actions a user wants to perform.
This month in pictures
Bacteria-killing micromotors, microscopic patchworks, and DNA fibers decorated with self-made “smileys” — science has never looked better.
How do you sample blood in a non-invasive way?
Graphene-based biosensors incorporated in arrays of microneedles are emerging as an alternative to hypodermic needles and could be the next generation of blood sampling devices.
Smart food label can identify bacteria without opening the package
Food-safe microneedles incorporated into a new smart label can effectively collect samples from packaged food and inform consumers about its quality in real time.
Vaccine candidate against COVID-19 shows early promise
Potential vaccine against COVID-19 could begin human trials after FDA approval.
“You may not feel a little prick”
4D-printed microneedles may one day replace conventional hypodermics.
Toward a Universal Influenza Vaccine
Gilbert X. Gonzalez tells how his lab are working on influenza vaccines that can overcome the problems of the seasonal influenza vaccine.
Minimally-Invasive Electrodes for Real-Time Transdermal Biosensing
A real-time, in vivo, and minimally-invasive transdermal biosensing system for hydrogen peroxide monitoring is developed.
Bio-Interfaces for Immuno-Engineering
Special issue in Advanced Healthcare Materials, edited by Weiqiang Chen and Deok‐Ho Kim, including biomaterial-immune cell interactions, immunotherapy, immune organs-on-chip and mechanobiology.