Abstract:
Core-shell nanoparticles having a core material and a mesoporous silica shell, and a method for manufacturing the core-shell nanoparticles are provided.
Abstract:
A method and apparatus for detecting a target molecule in a sample are disclosed. The method optionally includes, but is not limited to, contacting the sample with a substrate having a metallic surface and receptors configured to bind to a target molecule, optionally in the presence of one or more metallic nanoparticles also including receptors configured to bind to a target molecule. The method optionally further includes dispersing a dye over the substrate; and applying a magnetic field to the substrate.
Abstract:
Techniques for making nanowires with a desired diameter are provided. The nanowires can be grown from catalytic nanoparticles, wherein the nanowires can have substantially same diameter as the catalytic nanoparticles. Since the size or the diameter of the catalytic nanoparticles can be controlled in production of the nanoparticles, the diameter of the nanowires can be subsequently controlled as well. The catalytic nanoparticles are melted and provided with a gaseous precursor of the nanowires. When supersaturation of the catalytic nanoparticles with the gaseous precursor is reached, the gaseous precursor starts to solidify and form nanowires. The nanowires are separate from each other and not bind with each other to form a plurality of nanowires having the substantially uniform diameter.
Abstract:
A heat-radiating pattern and a heat-radiating pattern includes metal layers such as Au (gold) and Ag (silver). Metal layers with certain dimensions can absorb light in the visible/near IR (infrared) range and emit light in IR range as heat. The metal layers can be formed into a desired pattern and surroundings of the metal layers can be heated up locally and thereby form a portion of the heat-radiating pattern. Locally heated portions on a substrate by the heat-radiating pattern can transform a heat reactive polymer layer and perform as a local heater.
Abstract:
Disclosed are reactive fibers having a polycationic exterior surface to which multivalent peroxy anions are bound. The use of such fibers, mats of such fibers, and filters of such fibers, as well as methods of treating fluid streams, and rejuvenating such fibers, mats and filters are also disclosed.
Abstract:
A nano pattern writer includes an array of nano needles extending from a groove in a substrate. A first portion of each nano needle is located in a respective groove of the first layer and the second portion extends from the groove. The nano pattern writer includes a second layer covering the first layer such that the first portion of the nano needles is secured between the first layer and the second layer.
Abstract:
A method of making a porous membrane is disclosed. One such method optionally includes: forming a plurality of pillars in an array form over a substrate; and forming a layer with a mixture of a porous material precursor and a surfactant over the substrate. The method optionally includes removing the pillars to leave cavities in the layer; filling the cavities in the layer with a cavity filler; and removing the surfactant from the layer. The porous membrane can be used as, for example, a sieve for separating molecules from a chemical reaction.
Abstract:
Core-shell nanoparticles having a core material and a mesoporous silica shell, and a method for manufacturing the core-shell nanoparticles are provided.
Abstract:
Systems and methods of forming an electrode on a substrate are disclosed. The methods can include applying a solution including metal ions and metal nanomaterials to a surface of a substrate. The methods further can include exposing a selected portion of the solution with light having a wavelength capable of inducing reduction of the metal ions, wherein the selected portion corresponds to at least a portion of the electrode.