Taken together, organic batteries offer the promise of a circular platform free of critical elements.

The oral administration of peptides and proteins remains one of the great challenges in pharmaceutical science.

Development of an in vitro-in vivo correlation between lymph-cannulated animals and the primary transport assay developed herein might assist preclinical programs in translating lipid-based oral modalities to humans. Expansion of the organoid donor set (by species and small intestinal region), combinatorial probing of more lipid stimulation axes (by substrate chain length and saturation), and scaling of monolayer culture could refine the lymphatic assay into a high-throughput screen.

This talk will present our work using a chemical looping approach where solid particles of metal oxides are the sole source of oxygen to catalytic reactions. In particular, I will discuss the chemical looping epoxidation (CL-E) of ethylene to produce ethylene oxide (EO) and chemical looping oxidative dehydrogenation (CL-ODH) of ethanol to produce acetaldehyde.

This research highlights the critical role of the mechanical environment on GCX in vascular health, particularly in the context of atherosclerosis.