Stanford researchers have demonstrated a self healing electrode that can dramatically enhance the cycle lifetime of lithium ion batteries by applying Si microparticles with a thin layer of self-healing conductive composite.
Aging is associated with the decline of mitochondrial function, particularly in related metabolic diseases such as obesity, diabetes, and heart disease.
Artificial intelligence can be leveraged to evaluate how facial expressions will be perceived by others. A deep learning neural network is used to generate facial vectors for each image of a person.
Researchers at Stanford have developed a non-destructive method for generating and patterning optical color centers with nanoscale resolution without the need for high energy radiation. Color centers, which are optically active defects within the lattice structur
Researchers in Prof. Michael Lin's laboratory have developed a viral-based cancer therapy platform that could be used for targeting treatment to cancer cells with aberrant signaling in EGFR or HER2 pathways.
Stanford researchers have developed deep learning methods which can more precisely localize the position and orientation of a camera in the lung anatomy in real-time.
Despite widespread adoption of stationary wireless charging, dynamic wireless power transfer suffers from a sensitivity to relative movement of the device with respect to the power source.
Researchers at Stanford have developed a genetics-based approach that uses sex-specific genetic effects to predict testosterone levels in males and females.
Stanford engineers at Zhenan Bao's laboratory have designed a compliance sensor which can identify softness (compliance) of touched objects and provide human-like sensation to robots and prosthetics.
Stanford researchers developed a first-in-class small-molecule inhibitor of the CLC-2 ion channel for research and drug development. CLC-2 is part of the CLC family of chloride ion channels, which regulate the flux of chloride ions across cell membranes.
Researchers at Stanford have developed a new water-based disinfectant with the potential to destroy a wide variety of pathogens and significantly improve healthcare settings.
Researchers at Stanford have developed prodrug derivatives of protein kinase C (PKC) modulators that have lower toxicity and are more effective than the parent compound. PKC modulators are being developed to treat a variety of diseases.
Stanford researchers have developed a damage free method for activating buried p-type or Mg-doped epitaxial layers in III-nitride devices that improves performance and can reduce device cost when used as edge termination.
Researchers from Stanford and UC Santa Barbara have created a novel robot that blends traditional and soft robotics. This human-scale pneumatic robot can change shape and move independently once inflated, without needing a constant power or air source.