Stanford researchers have designed a capacitively coupled electrostatic device (CCED) for measuring high voltage. The CCED is compact, low cost, safe, easy to use, accurate, and actively calibrated.
A team of Stanford researchers has developed a precisely controlled hydrogel drug delivery system that prevents scarring and promotes wound healing in large, full thickness wounds.
Researchers in Professor Zhenan Bao's group at Stanford University have developed a biomimetic soft electronic skin (e-skin) with multiple levels of biologically inspired patterning that can detect the direction of applied forces.
Engineers in Prof. Mark Cutkosky's laboratory have patented a compact, intuitive, haptic vehicle feedback system that communicates multi-dimensional information to drivers through the grip of the steering wheel.
Researchers in the Robust Systems Group at Stanford University developed a method for dividing the available resistance window in a multi-bit per cell Resistive RAM into varying resistance distributions to improve read and program performance.
Engineers in Prof. Mark Cutkosky's laboratory have developed patented electrostrictive elements that can support high loads over a long lifetime when used as variable suspension systems for robots, autonomous vehicles or prosthetics.
When examining one or higher dimensional data, researchers frequently aim to identify individual subsets (clusters) of objects within the dataset. With high-dimensional data (>3 dimensions), the data become progressively more sparsly distributed in space.
Stanford researchers in the McNab lab have developed a marker-less neuro-navigation device that only needs to be setup once during the first transcranial magnetic stimulation (TMS) session and by tracking the subjects head, automatically achieves the same accurate coil locatio
Researchers in Dr. Craig Criddle's lab have developed a method for enriching microorganisms with high poly(3-hydroxy)butyrate (PHB) production in non-sterile mixed culture conditions.
Stanford researchers have recently patented a hybrid LED-LCD screen suitable for applications ranging from large televisions to small mobile displays and capable of significantly reducing power consumption to as little as 1/20th that of conventional design
Engineers in Prof. Khuri-Yakub's laboratory have developed ultrasonic methods for non-invasive flow meters to accurately measure flow rate, pressure, velocity and other parameters of gas or liquid traveling through a pipe.
Engineers in Prof. Khuri-Yakub's laboratory have developed ultrasonic methods for non-invasive flow meters to accurately measure flow rate, pressure, velocity profile and other parameters of gas or liquid traveling through a pipe.
Stanford researchers at the Fan Lab have proposed a comprehensive approach for controlling the heating and cooling of outdoor coatings, such as paint on automobiles or buildings, without affecting its exterior color.
Engineers at the Zhenan Bao Lab have developed an elastic Li-ion conductor with dual covalent and dynamic hydrogen bonding crosslinks providing high mechanical resilience without sacrificing the room temperature ionic conductivity.
This nanoparticle platform for electric field detection is the first inorganic platform to use both intensity and spectro-ratiometric (relative color change) readout for the determination of local electric fields in vitro, in vivo, and in situ.