Stanford researchers have developed a patented, wearable, haptic feedback device that provides position and velocity information on the limbs and torso by imparting rotational skin stretch.
Stanford researchers in the Vuckovic group have fabricated thin-film 4H crystal structure Silicon Carbide with excellent quantum and classical photonics properties.
Heart failure is a complex cardiovascular disease that affects 26 million people worldwide and is characterized by the inability of the heart to pump blood effectively, leading to a decline in its normal functions.
Researchers at Stanford have discovered a therapeutic strategy to overcome off-target red blood cell (RBC) toxicity associated with anti-CD47 antibody cancer therapies and possibly antibody-mediated autoimmune anemia and thrombocytopenia.
Stanford researchers have created an optimized stuffer sequence derived from the human BMP-10 3'UTR to enhance the packaging efficiency, productivity, and safety of recombinant adeno-associated virus (rAAV) vectors in gene therapy applications.
Stanford researchers have developed a novel, real-time biofeedback system that may help reduce pain for patients suffering from movement disorders such as osteoarthritis, patellofemoral pain syndrome, or stroke.
Stanford researchers have developed a method of reducing pulmonary hypertension (PH) in mammals by targeting FHIT (Fragile Histidine Triad), a gene not previously linked to PH but consistently reduced in blood of patients with pulmonary arterial hypertension (PAH).
Methane (CH4), a potent greenhouse gas with 25 times the thermal impact of carbon dioxide (CO2), contributes to about 30% of global warming since the Industrial Revolution.
Stanford scientists have developed a platform that combines Raman spectroscopy, nanomaterials, and machine learning to rapidly identify bacteria in wastewater without chemical labels.
Stanford researchers have patented a system for precise genetic modification of human embryonic stem cells (ECSs) and induced pluripotent stem cells (iPSCs).
Stanford researchers at the Hasselink Lab have developed a method for making a high aspect ratio phase grating structures on a substrate that can be curved to better meet the optics requirements in X-ray differential phase contrast (DPC) imaging systems.
Stanford researchers have developed an exceptionally fast, sensitive, and compact X-ray imaging system for distinguishing liquids and other materials in aviation security applications.