A tunneling field-effect transistor incorporating 2D and 3D materials which offers both high current density and robust on/off switching, for use in low-power electronics.
Leveraging open-source AI platforms, this technology enables automated image-based detection, prediction, and control of microfluidic single bubble/droplet formation.
Synthesis of epitaxial two-dimensional Indium(II) selenide (InSe) by metal-organic chemical vapor deposition (MOCVD) over 2-inch wafers and its applications in electronics.
A single metasurface to obtain enhanced images for various magnetic resonance nuclei and field.
A ferroelectric transistor memory device combines AlScN dielectric with a 2D semiconductor channel such as MoS2 for non-volatile memory compatible with CMOS back-end of line (BEOL) fabrication.
Supramolecular crown ethers and fluorinated polymers enable the formation of high ionic conductivity, water-impermeable artificial ion channels for bioelectronic transistor applications.
Bias-tolerant training method for analog AI hardware that improves learning stability without digital correction.
Kirigami-based metamaterials with tunable properties for large, lightweight, and cost-effective parabolic antennas for space applications.
Microfluidic device for generation of large, precisely-defined, diverse lipid nanoparticle libraries for screening LNP formulations.
A device consisting of electrode patches, a control box, and software for automated nerve conduction studies.