Abstract: A semiconductor structure includes a substrate and a word line (WL) structure. The WL structure includes: a work function stacking structure located in the substrate, where the work function stacking structure includes multiple sequentially and alternately stacked first work function layers and second work function layers, and a work function of the first work function layer is greater than a work function of the second work function layer; a WL conductive layer located in the substrate, and located on an upper surface of the work function stacking structure; and a gate oxide layer located between the work function stacking structure and the substrate as well as between the WL conductive layer and the substrate.

Abstract: A system for processing photoacoustic and ultrasound imaging data includes processor(s) and memory storing program(s) configured to be executed by the processor(s). The program(s) include instructions for: obtaining ultrasound imaging data representative of an ultrasound image of the object, performing a speed of sound value optimization operation based on the ultrasound imaging data for facilitating image reconstruction, and performing an image reconstruction operation. The ultrasound imaging data is obtained from a system for photoacoustic imaging and ultrasound imaging.

Abstract: A method of making a magnetically-drivable microrobot that is suitable for carrying and delivering cells includes photo-curing a photo-curable material composition to form a body of the magnetically-drivable microrobot. The photo-curable material composition includes a degradable component, a structural component, a magnetic component, and a photo-curing facilitation composition including a photoinitiator component and a photosensitizer component.

Abstract: A material structure for silicon-based gallium nitride microwave and millimeter-wave devices and a manufacturing method thereof are provided. The material structure includes: a silicon substrate; a dielectric layer of high thermal conductivity, disposed on an upper surface of the silicon substrate, and an uneven first patterned interface being formed between the dielectric layer and the silicon substrate; a buffer layer, disposed on an upper surface of the dielectric layer, and an uneven second patterned interface being formed between the buffer layer and the dielectric layer; a channel layer, disposed on an upper surface of the buffer layer; and a composite barrier layer, disposed on an upper surface of the channel layer. In the material structure, the uneven patterned interfaces increase contact areas of the interfaces, a thermal boundary resistance and a thermal resistance of device are reduced, and a heat dissipation performance of device is improved.

Abstract: A method for preparing an AlN based template having a Si substrate and a method for preparing a GaN based epitaxial structure having a Si substrate are provided. The method for preparing the AlN based template having the Si substrate, which includes: providing the Si substrate; growing an AlN nucleation layer on the Si substrate; and introducing an ion passing through the AlN nucleation layer and into the Si substrate. After the AlN nucleation layer is prepared on the Si substrate, the ions are introduced into the Si substrate and the AlN nucleation layer through the AlN nucleation layer. In this way, types of the introduced ions can be expanded. In addition, a carrier concentration at an interface between the Si substrate and the AlN nucleation layer and a carrier concentration in the AlN nucleation layer can also be reduced.

Abstract: A method of making a magnetically-drivable microrobot that is suitable for carrying and delivering cells includes photo-curing a photo-curable material composition to form a body of the magnetically-drivable microrobot. The photo-curable material composition includes a degradable component, a structural component, a magnetic component, and a photo-curing facilitation composition including a photoinitiator component and a photosensitizer component.

Abstract: Fluorescent compositions with enhanced fluorescent intensity are provided. Methods for using the fluorescent compositions in medical imaging are also provided. The enhanced fluorescent compositions can be a mixture or solution comprising a fluorescent dye and a light-scattering emulsion or fluorescence-enhancing diluent. The fluorescent dye, e.g., indocyanine green (ICG), is activated by near-infrared radiation. The fluorescence-enhancing diluent can be milk, infant formula, intravenous fat emulsions, soy bean oil, egg phospholipids, Intralipid, Liposyn, Nutralipid, Soyacal, Travamulsion, SMOFlipid, Clinoleic, Lipovenoes and/or combinations thereof. The fluorescent intensity of the enhanced fluorescent composition can be 5 to 20 or more times greater than that of the fluorescent dye in solution without added fluorescence-enhancing diluent.