Stanford researchers have developed a highly effective B7-H3 chimeric antigen receptor (CAR) for CAR-T cell therapy, designed to enhance binding and cytotoxicity against B7-H3 expressing solid tumors, offering a promising treatment for various cancers.
Stanford scientists have discovered that a specific protein signaling pathway can promote regenerative wound healing by suppressing fibrosis-related mechanosignaling.
Stanford researchers in Prof. Michelle Monje's lab have developed a method for treating cognitive impairment (aka brain fog) caused by cancer immunotherapy.
Stanford scientists have developed an innovative Double-double (DD), thin-ply laminate technology that challenges traditional composite design rules to simultaneously reduce weight and cost.
Stanford researchers have developed a software platform featuring an integrated digital twin framework to enable 24/7, carbon-free operations of electric vehicle (EV) fleets.
Stanford researchers have developed a new class of asymmetric ether solvents — both non-fluorinated and fluorinated — for next-generation lithium-metal batteries.
Researchers in Prof. Hongjie Dai's laboratory have developed a simple process to easily deposit plasmonic nanoscopic gold films on a variety of surfaces.
Lithium thionyl chloride batteries are one of the most energy dense batteries but have attracted limited prior interest due to their lack of rechargeability.
Hematopoietic stem and progenitor cells, collectively "HSPCs", are multipotent cells that can self-renew and differentiate into all types of blood cells, including cells of both myeloid and lymphoid lineage.
Osteopontin is a protein involved in the pathogenesis of cancer and chronic inflammatory diseases. Antibodies are a powerful tool that can be used to target this protein and regulate its pathway.
Researchers at Stanford have developed a novel strategy to enhance vaccine efficacy using mRNA lipid nanoparticles (LNPs) encoding immunostimulatory cytokines.
Stanford scientists have developed an innovative capacitive 6-axis force-torque sensor priced under $10—significantly more affordable than conventional sensors costing $1000+.
Stanford researchers have developed an innovative microfluidic platform, EV-Lev, for the isolation and sorting of extracellular vesicles (EVs) from human plasma.
Stanford researchers have developed an approach to enhance Phlego cement production by leveraging the Streckeisen (QAPF) diagram, a powerful tool for classifying igneous rocks based on their mineralogical composition.
Researchers at Stanford have developed a strategy to improve the efficacy of antibiotics by conjugating the antibiotic to a guanidinium-rich molecular transporter (GR-MoTr).