Stanford researchers have developed an innovative method for efficiently generating robust lymphatic endothelial cells (iLECs) from human induced pluripotent stem cells (hiPSCs) through transcription factor-based protocols.
Researchers at Stanford have pioneered a novel approach to tuberculosis (TB) vaccine development by pinpointing a novel T-cell target, a PPE protein epitope, via leading edge T-cell reporter assays and comprehensive peptide library screening.
Stanford researchers have identified that increased oxidative stress is a key molecular signature of fatigue-based conditions including Long COVID and myalgic encephalomyelitis or chronic fatigue syndrome (ME/CFS).
Diagnosis and sub-typing of inflammatory bowel disease (IBD) subsets, such as Crohn's disease (CD) and ulcerative colitis (UC), often require the use of repeated, invasive, and expensive endoscopy procedures, which are not without risk.
Stanford researchers have patented a system for precise genetic modification of human embryonic stem cells (ECSs) and induced pluripotent stem cells (iPSCs).
Researchers at Stanford have developed a simpler and low-cost micro-cavity design for color tuning of organic light emitting devices (OLEDs) for display applications. A micro-cavity is an essential part of OLED display for high color purity.
Stanford researchers have developed a simple optical device for low-power, active light tuning. The device tunes the color of light across the visible spectrum and at select wavelengths by electrical biasing an array of micron sized pixels or nanowires.
Stanford inventors have developed a nanoparticle containing the toll-like receptor agonist (TLR7-NP) that elicits a potent anti-tumor immune response in multiple cancer types without inducing undesired systemic inflammation and toxicity.
Stanford researchers have developed a device that combines one-photon and two-photon microscopy using fast temporal multiplexing enabling 3D alignment between in vivo and ex vivo data for neuroscience and spatial biology applications.
The Tass Lab has invented non-invasive, Vibrotactile Coordinated Reset (vCR) stimulation devices and methods to safely and efficiently treat brain disorders characterized by abnormal neuronal synchrony such as Parkinson's disease.
Researchers in the Stanford University Power Electronics Research Lab developed an effective ring electrode that removes spurious modes in piezoelectric resonators.
Stanford researchers have developed a conductive nanoporous powder technology that dramatically enhances electrode stability and efficiency for fuel cells and electrolyzers.
Researchers in Dr. Michael Lin's lab have developed a fluorescent voltage sensor for non-invasive optical monitoring of electrical events in living cells in vitro and in vivo.