Stanford researchers have developed a method to form orthogonal overlapping joints at the 4 corners of the starting square. In order to have constant height of each beam, inserts in the beams between the joints will be required.
Researchers at Stanford have developed a CRISPR-based system to degrade viral RNA, with potential applications as both an anti-viral therapeutic and a prophylactic treatment against influenza, SARS-CoV-2, and other viruses.
Stanford researchers led by Dr. Arun Majumdar have developed photocatalysts combining transport- and reaction-selective nanostructures for direct methanol production.
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.
Stanford scientists have invented an implicit an Neural Representation learning methodology with Prior embedding (NeRP) to reconstruct a computational medical image from sparsely sampled measurements using only a prior image of the subject.
Adeno-associated virus (AAV) vectored products are currently leading candidates for gene therapy applications with multiple approved products and many more in clinical trials.
Stanford inventors have developed a method to create spatially micropatterned vascularized structures that enable in vitro representation of human and animal biology in models such as cells, tissues, organs, and organoids.
Stanford researchers developed a programmable tuning circuit for dynamic, all-electronic tuning of the resonance frequency, sensitivity, and bandwidth of ultrasound transducers.
Stanford researchers have discovered a new class of metallic glass alloys with superior properties such as low cost, high wear resistance, and electric conductivity comparable to graphite.
Stanford researchers developed a device that emits electromagnetic radiation that oscillates between at least first and second distinct polarization states.