UCLA researchers in the Department of Bioengineering have developed novel microporous annealed particle gels for long-term continuous monitoring of blood metabolites.

UCLA researchers from the Department of Bioengineering have developed a novel approach to screen and sort single cells and colonies while preserving them in viable culture environments. This innovative technology employs a liquid to gel solution that changes phase under mild conditions to compartmentalize biological components.

A data-driven, machine-learning approach called the Pairwise-Learning Framework (PLF) that can automatically compute visual error between two images of a given scene in a manner that is consistent with human visual perception.

UCLA researchers at the Department of Molecular & Medical Pharmacology have developed fully human antibody fragments against human N-cadherin that can potentially be used to evaluate EMT (epithelial-mesenchymal transition) status for diagnostic and prognostic purposes.

UCLA researchers in the Department of Chemistry and Department of Materials Science and Engineering have developed a high-yielding and reproducible synthesis of monolayer atomic crystal molecular superlattices via electrochemical intercalation.

Researchers at the UCLA Department of Molecular and Medical Pharmacology have developed a novel NanoVelcro microfluidic chip that is capable of not only effectively enriching circulating tumor cells (CTCs) but also quickly recovering CTCs with well-preserved mRNA and minimal level of white blood cell contamination.

UCLA researchers in the Department of Molecular and Medical Pharmacology have developed a new type of fluorescent dermal pigment.

A way to epitaxially grow quantum dot lasers on Si that are free of misfit dislocation.