Stanford researchers have developed the Large-scale Electrophysiology Amplification Platform (LEAP), a wireless, label-free optical system for monitoring the electrical activity of neurons and heart cells.
Researchers at Stanford have developed an innovative, non-invasive thermal treatment to recover the lost capacity of used lithium-ion batteries (LIBs), offering a scalable and cost-effective solution to the environmental challenges posed by battery waste.
Riffbot.ai is a web-based platform that leverages AI-powered, customizable chatbots to generate dynamic, personalized self-reflection experiences for learners while providing real-time insights to enhance engagement and improve learning outcomes at scale.
Stanford researchers have developed a novel, inverse-designed wavelength division multiplexer (WDM) that integrates high-performance Bragg gratings for use in optical communication systems.
Researchers at Stanford have developed an innovative molecular engineering strategy to enhance the stability and performance of polymer semiconductors (PSCs).
Stanford scientists have developed an innovative Double-double (DD), thin-ply laminate technology that challenges traditional composite design rules to simultaneously reduce weight and cost.
Stanford researchers have developed a software platform featuring an integrated digital twin framework to enable 24/7, carbon-free operations of electric vehicle (EV) fleets.
Stanford researchers have developed a new class of asymmetric ether solvents — both non-fluorinated and fluorinated — for next-generation lithium-metal batteries.
Researchers in Prof. Hongjie Dai's laboratory have developed a simple process to easily deposit plasmonic nanoscopic gold films on a variety of surfaces.
Stanford scientists have developed an innovative capacitive 6-axis force-torque sensor priced under $10—significantly more affordable than conventional sensors costing $1000+.
Stanford researchers have developed an approach to enhance Phlego cement production by leveraging the Streckeisen (QAPF) diagram, a powerful tool for classifying igneous rocks based on their mineralogical composition.
Stanford researchers in the WE3 and S3 Labs developed software for biogas modeling suitable for real-time, co-digestion forecasting control for waste streams with widely varying biodegradability rates.
Stanford scientists have developed an advanced optical technology that can separate and recombine thousands of extremely close light frequencies with unprecedented precision.
Stanford researchers have developed a networked audio system that enhances the experience of teleconferencing, and online performances, gaming, and gatherings.