SMART researchers develop quick test to determine immunity against Covid-19
Test that measures a person’s antibodies requires a drop of blood and takes just 10 minutes to show results.
Test that measures a person’s antibodies requires a drop of blood and takes just 10 minutes to show results.
By providing researchers with financial and strategic support from the early stages, the Innovation Center hopes to bring new and disruptive technologies to market.
Developed by the Singapore-MIT Alliance for Research and Technology, the assay can provide new details about the type of SARS-CoV-2 circulating in a community.
Stacy Springs named executive director; Richard Braatz is associate faculty director.
An anomaly-detection model developed by SMART utilizes machine learning to quickly detect microbial contamination.
Rapid and accurate analytical test method enhances the production of high-quality cell therapy products.
Perovskite materials would be superior to silicon in PV cells, but manufacturing such cells at scale is a huge hurdle. Machine learning can help.
Study suggests how much competition in the urban ride market can grow before gridlock sets in.
Novel lysin Abp013 has shown promising antimicrobial ability against Acinetobacter baumannii and Klebsiella pneumoniae.
SMART researchers find explanation for why some patients might experience diarrhea after taking amoxicillin-clavulanate.
The millionth sale of “Introduction to Algorithms” prompts Charles Leiserson and Tom Corman look back at the creation and legacy of the foundational textbook, now in its fourth edition.
SMART breakthrough could help develop technologies that can identify materials according to desired properties for specific applications.
The Raman spectroscopy-based method enables early detection and quantification of pathogens in plants, to enhance plant disease management.
Paper-based blood test developed by SMART researchers can rapidly determine the presence of SARS-CoV-2 neutralizing antibodies.
SMART researchers demonstrate a practical way to make indium gallium nitride LEDs with considerably higher indium concentration.