Researchers in the Dionne group at Stanford have designed a nanoscale laser capable of self-isolated Raman Lasing, where lasing and isolation occurs within the same pumping mechanism.
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.
Allogeneic hematopoietic stem cell transplantation (allo-HSCT) is an efficacious therapy for patients with life-threatening leukemias, but its use has been hindered by the limited availability of donors with matching HLA. Graft manipulation by removing ??
Researchers in Prof. Karl Deisseroth's laboratory have developed a portfolio of microbial opsin proteins that can be used for precise and modular photosensitization components that enable optical control of specific cellular processes.
Researchers in Dr. Karl Deisseroth's lab have developed a selective approach to treat anxiety. Anxiety is characterized by several features that are coordinately regulated by diverse neuronal system outputs.
Researchers in Prof. Karl Deisseroth's laboratory have developed a novel system for modulating brain activity with moderate intensity focused ultrasound. In this technique, ultrasound is used to increase the intrinsic firing rate of targeted neurons.
Researchers from Prof. Karl Deisseroth's laboratory have developed techniques for specifically modulating the activity of excitable cells in vivo. This approach introduces light-responsive proteins to create photo-sensitive cells.
Researchers in Dr. Karl Deisseroth's laboratory at Stanford University have developed a novel suite of genetically-encodable, optically-activated modulators of second messengers (such as cAMP and IP3).
The inventors have developed a light-driven chloride pump (NpHR or Halo) for temporally precise optical inhibition of neural activity with ordinary yellow light.