摘要:
A technique related to sorting entities is provided. An inlet is configured to receive a fluid, and an outlet is configured to exit the fluid. A nanopillar array, connected to the inlet and the outlet, is configured to allow the fluid to flow from the inlet to the outlet. The nanopillar array includes nanopillars arranged to separate entities by size. The nanopillars are arranged to have a gap separating one nanopillar from another nanopillar. The gap is constructed to be in a nanoscale range.
摘要:
A metal nanolaminate includes a plurality of units stacked in a longitudinal direction of the metal nanolaminate. Each of the units includes a first layer and a second layer stacked in the longitudinal direction. The first layer includes a first metal material formed of a first metallic element and the second layer includes the first metal material and a second metal material formed of a second metallic element. Each of the first layer and the second layer has a thickness of at least 5 nm but less than 100 nm in the longitudinal direction.
摘要:
Disclosed are a display screen film and a preparation method therefor, and an energy saving method. The display screen film comprises an oriented carbon nanotube layer and a quartz glass layer, wherein the oriented carbon nanotube layer is located above the quartz glass layer, comprises an oriented growth carbon nanotube, and is configured to refract all incident light through the oriented growth carbon nanotube; the quartz glass layer is used for the carbon nanotube layer to grow orientately thereon, and is also used for absorbing the incident light so as to enable all the incident light to reach the oriented carbon nanotube layer.
摘要:
Small structures are formed by applying to a substrate a structural material and a layer of a sacrificial material having a lower surface energy than the structural material, to form an intermediate product. The substrate is then heated to a temperature at which the sacrificial material evaporates or sublimes and the structural material is mobilized. The sacrificial material is permitted to evaporate or sublime, an area of the substrate covered by the sacrificial material to diminish, and the structural material to agglomerate on the remaining sacrificial material to form a structure.
摘要:
A device may include a nanosheet field effect transistor (FET) that may include a substrate, a well that is doped with impurities at a surface of the substrate, a channel including a plurality of stacked nanosheets, a gate, a conductive material, and an isolation layer. Ones of the plurality of stacked nanosheets may include a semiconductor material that may be doped with impurities of the same conductivity type as the impurities of the well. The conductive material may be adjacent the plurality of nanosheets and may electrically connect ones of the plurality of nanosheets to the well. The isolation layer may electrically insulate the well from the workfunction metal.
摘要:
Techniques for CNT solubilization and surface-selective deposition via polymer-mediated assembly are provided. In one aspect, a method for self-assembly of CNTs on a substrate is provided. The method includes the following steps. One or more surfaces of the substrate are coated with a thiol-reactive compound. The substrate is contacted with carbon nanotube-polymer assemblies dispersed in a solvent, wherein the carbon nanotube-polymer assemblies include the carbon nanotubes wrapped in a polymer having side chains with thiol groups. Wherein by way of the step of contacting the substrate with the carbon nanotube-polymer assemblies, the carbon nanotube-polymer assemblies selectively bind to the surfaces of the substrate based on an interaction between the thiol groups in the polymer and the thiol-reactive compound on the surfaces of the substrate and thereby self-assemble on the substrate.
摘要:
A method of manufacturing a sensor network is described which includes stretching a silicon substrate over a desired area, and generating a plurality of nodes fabricated on the stretchable silicon substrate. The nodes include at least one of an energy harvesting and storage element, a communication device, a sensing device, and a processor. The nodes are interconnected via interconnecting conductors formed in the substrate.
摘要:
Techniques for CNT solubilization and surface-selective deposition via polymer-mediated assembly are provided. In one aspect, a method for self-assembly of CNTs on a substrate is provided. The method includes the following steps. One or more surfaces of the substrate are coated with a thiol-reactive compound. The substrate is contacted with carbon nanotube-polymer assemblies dispersed in a solvent, wherein the carbon nanotube-polymer assemblies include the carbon nanotubes wrapped in a polymer having side chains with thiol groups. Wherein by way of the step of contacting the substrate with the carbon nanotube-polymer assemblies, the carbon nanotube-polymer assemblies selectively bind to the surfaces of the substrate based on an interaction between the thiol groups in the polymer and the thiol-reactive compound on the surfaces of the substrate and thereby self-assemble on the substrate.
摘要:
The assembly is made up of: a) a support including a mesoporous coating whose pores have an average diameter dimensioned so as to enable molecules from the family of cyanines to penetrate them, and b) a layer of molecules from the family of cyanines and organized into J-aggregates within the pores of the coating. The assembly moreover includes Quantum Dots located within the same pores as those containing the J-aggregates, the Quantum Dots maintaining J-aggregates structure. A method for producing such an assembly is also described.
摘要:
Small structures are formed by applying to a substrate a structural material and a layer of a sacrificial material having a lower surface energy than the structural material, to form an intermediate product. The substrate is then heated to a temperature at which the sacrificial material evaporates or sublimes and the structural material is mobilized. The sacrificial material is permitted to evaporate or sublime, an area of the substrate covered by the sacrificial material to diminish, and the structural material to agglomerate on the remaining sacrificial material to form a structure.