Stanford researchers have developed a technique to interpret contact events between a human and a device equipped with a force sensor. It can detect and classify distinct touch interactions such as tap, touch, grab, and slip.
Stanford researchers at the Camarillo Lab have developed a neural-network based model that can provide real-time calculation of brain strain based on instrumented mouthguard kinematics signals.
Researchers at Stanford have developed synthetic derivatives of a natural product, azapodophyllotoxin (AZP), that exhibit remarkable anticancer activities.
Researchers at Stanford, funded in part by the Chan Zuckerberg Biohub, have developed PMD (Protect, Modify, Deprotect), an immunofocusing strategy that can be used in vaccine development for the generation of antibodies targeting a specific epitope.
Researchers at Stanford, funded in part by the Chan Zuckerberg Biohub, have generated a method for performing multi-parametric and high-throughput single cell genomic and phenotypic analyses.
Researchers at Stanford and the Chan Zuckerberg Biohub have discovered a Cas9 protein variant from Ignavibacterium that is thermostable at elevated temperatures.
Researchers in the Fuller group have designed a platform and method for measuring the thickness profiles of dynamic thin liquid films at high frequencies. The key steps in the new method called as dynamic hyperspectral interferometry are as follows.
Researchers at Stanford have developed a new catalog of compact transcription effector domains and fused them onto DNA binding domains to engineer synthetic transcription factors.
Stanford researchers have developed a library of polymeric hydrogel formulations to prevent and/or reduce biofouling on implanted sensors and medical devices.
The Murmann lab has developed a method for an extraction information from acoustic signals that utilizes low power consumption. N-path filters are used to decompose the original acoustic signals' waveform before downconverting to lower their Nyquist-rate bandwidth.