Abstract:
Methods for preparing one or more conductive nanostructures are provided. In accordance with one embodiment, a method for preparing one or more conductive nanostructures may include providing a composite of nanoparticles and block copolymer including one or more first microdomains and one or more second microdomains, where conductive nanoparticles are selectively distributed in the one or more first microdomains, removing the first microdomains while leaving the conductive nanoparticles in the composite, forming one or more conductive nanostructures on the conductive nanoparticles, and removing the second microdomains.
Abstract:
Techniques for coating a fiber with metal oxide include forming silica in the fiber to fix the metal oxide to the fiber. The coated fiber can be used to facilitate photocatalysis.
Abstract:
A method for manufacturing a nano pattern writer includes forming one or more grooves on a first layer, depositing a substance on the first layer to form a film on the first layer, polishing the film on the first layer to thereby form a patterned film that fills the one or more grooves on the first layer, placing a second layer over the patterned film to thereby form a layered structure interposing the patterned film between the first layer and the second layer, and removing a part of the first layer and the second layer to thereby expose portions of the patterned film.
Abstract:
Compositions, systems and methods for using a nanoparticle composite to act as a valve within a microfluidic conduit to regulate fluid flow therethrough are provided. The nanoparticle composite includes a core having magnetic particles and Au particles and includes a hydrogel coating surrounding the core. The size of the nanoparticle composite is controlled by causing the hydrogel coating to lose water or absorb water, thus decreasing or increasing the size of the nanoparticle composite within the microfluidic conduit.
Abstract:
Disclosed is a method of processing a polycrystalline nanoparticle. The method includes exposing a polycrystalline nanoparticle that includes at least two metal oxide crystallites bonded to each other to a chemical composition that includes a catalyst in order to at least partially separate the at least two metal oxide crystallites of the polycrystalline nanoparticle at an interface thereof.
Abstract:
Systems and methods of forming photocatalytic nanocapsules and photocatalytic fibers are disclosed. The methods can include encapsulating one or more photocatalytic nanoparticles in a shell including at least one nanopore. The methods can further include forming photocatalytic fibers from a solution having one or more photocatalytic particles in a polycarbosilane melt.
Abstract:
Systems and methods for sensing an applied local tactile pressure are disclosed. The methods can include directing light onto a tactile sensing element that includes a metal nanoparticle layer. The methods can further include receiving at least a portion of the light scattered from the metal nanoparticle layer. The methods can further include determining a local pressure exerted on the tactile sensing element based at least in part on a change in a surface plasmon resonance (SPR) spectrum of the received portion of the scattered light.
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.
Abstract:
One or more techniques for nano structure fabrication are provided. In an embodiment, an apparatus for manufacturing a nano structure is disclosed. The apparatus includes a stamp having a line pattern on a surface thereof that comprises a plurality of protrusions, a die configured to hold a substrate thereon, and a mechanical processing unit configured to press the plurality of protrusions of the stamp against the substrate with a predetermined pressure so as to form at least one channel pore therebetween.