Xiaogan Liang
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Two-Dimensional (2D) Material-Based Field-Effect Transistor (2D-FET) Sensors for Real-Time Quantification of Biological and Chemical Molecules
6781 – Background The invention disclosure reports a 2D-material-based field-effect transistor (2D-FET) sensor capable of detecting target biological/chemical molecules in the real-time mode with very low detection limits (fM-level detection limits). The use of multiple such sensors exhibit highly consistent calibrated responses with respect to target molecule concentrations. This is essential to... Read More
Multi-bit nonvolatile memory using plasma doping
6036 – Researchers at the University of Michigan have developed a new multi-bit solid state memory without charging layers or floating gates. Current transistor-based memory relies on floating gate structures that require precise fabrication and multilayer deposition. Furthermore, prototype technologies to improve multi-bit capabilities commonly rely on nanowire, memristor, or organic semiconductor... Read More
Surface Charge-Assisted Printing of Atomically Layered Materials and Functional Devices
5716 – A Researcher from the University of Michigan Mechanical Engineering Department has developed a technology that enables mass production of devices with atomically layered materials. The technology uses surface charge to assist in the printing of complex atomically layered patterns. These atomically layered materials include graphene and MoS2, which are emerging as key materials in a range of... Read More