Explore Stanford technologies available for licensing:

Active manipulation of light beams is required for a range of emerging optical technologies, including sensing, optical computing, virtual/augmented reality, dynamic holography, and computational imaging.

Stanford inventors have developed a method for manufacturing perovskite solar modules at lower cost and greater device stability by utilizing a novel transparent conducting oxide (TCO) lift-off scribing method.

Stanford researchers have developed an active photonic metasurface with fast and high-resolution optical control for light modulation devices.

Researchers in Stanford's Nanoscale and Quantum Photonics Lab have developed a fast and accurate method to analyze large area metasurfaces.

Stanford researchers design and demonstrate a novel in situ backpropagation training algorithm for photonic implementations of neural networks.

Stanford inventors have developed a framework that performs digitally verifiable photonic matrix-vector multiplication in integrated photonic networks, which may potentially enable energy-efficient hash functions and cryptocurrency mining.

Researchers at Stanford are designing a class of "2.5-dimensional" microwave cavities that enables coupling/interaction between microwave photons and solid-state quantum spins in a way which is strong compared to loss.

Measurement of dissolved CO₂ has critical applications in healthcare monitoring and consumer goods quality control, yet is difficult to measure directly.

Researchers at Stanford have developed a method for tuning the polarization state of light achromatically and along arbitrary polarization axes.

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.

A Stanford researcher has developed a simple hardware solution to eliminate a newly identified form of optical 'crosstalk' on image sensors.

Inventors at Stanford University have developed a colorimetric device to visualize microstructural features in tissue biopsies towards clinical diagnostics.

Stanford inventors have developed a nanophotonic platform for detection and separation of chiral compounds that absorb in the ultraviolet regime.

Researchers in the Molecular Imaging Instrumentation Laboratory at Stanford University have developed a PET (positron emission tomography) detector and front end readout assembly that can operate in a high field MRI (magnetic resonance imaging) system.

Researchers at Stanford have developed a new synthetic strategy for self-assembling layered heterostructures into large single crystals and films useful in microelectronics.