A user interface for an appliance is provided, including a user interface panel and a control component attached to the user interface panel. The user interface panel includes a plurality of traces for providing an electrical connection for the control component. The plurality of traces are integrally formed with the user interface panel such that the plurality of traces and the user interface panel are a single, unitary component. In some embodiments, the unitary user interface panel is curved. A method for forming a unitary user interface of an appliance also is provided, including establishing courses of a plurality of traces of the unitary user interface; converting the courses into control data for use in a laser direct structuring process; and using the laser direct structuring process to integrally form the plurality of traces with a user interface panel to form a unitary user interface panel.

Metalized plastic substrates, and methods thereof are provided herein. The method includes providing a plastic substrate having a plurality of accelerators dispersed in the plastic substrate. The accelerators have a formula selected from the group consisting of: CuFe.sub.2O.sub.4−δ, Ca.sub.0.25Cu.sub.0.75TiO.sub.3−β, and TiO.sub.2−σ, wherein δ, β, σ denotes oxygen vacancies in corresponding accelerators and 0.05≦δ≦0.8, 0.05≦β≦0.5, and 0.05≦σ≦1.0. The method further includes removing at least a portion of a surface of the plastic substrate to expose at least a first accelerator. The method further includes plating the exposed surface of the plastic substrate to form at least a first metal layer on the at least first accelerator, and then plating the first metal layer to form at least a second metal layer.

An illumination device comprises a holder, a plurality of light emitting elements, a translucent cover and a lamp cap structure. The holder comprises a heat dissipating base body and a carrying unit. The carrying unit is connected to a top portion of the heat dissipating base body and comprises a carrying base body, a circuit pattern and a heat dissipating pattern, the circuit pattern and the heat dissipating pattern are directly formed to a surface of the carrying base body, the circuit pattern has a plurality of mounting positions, the heat dissipating pattern at least extends from a region close to the mounting position to a region where the heat dissipating pattern can contact the heat dissipating base body. The plurality of light emitting elements are respectively provided at the plurality of the mounting positions and establish an electrical connection with the circuit pattern.

The present invention relates to a composition for forming a conductive pattern which allows micro conductive patterns to be formed on various polymeric resin products or resin layers by a very simplified process, a method for forming a conductive pattern using the composition, and a resin structure having the conductive pattern. The composition for forming a conductive pattern comprises: a polymeric resin; and a nonconductive metallic compound including a first metal, a second metal and a third metal, wherein the nonconductive metallic compound has a three-dimensional structure including a plurality of first layers (edge-shared octahedral layers) having a structure in which octahedrons comprising two metals from among the first metal, the second metal and the third metal which share the edges thereof with one another are two-dimensionally connected to one other, and a second layer which includes a metal of a different type from the first layer and is arranged between adjacent first layers, and wherein a metallic core including the first metal, the second metal or the third metal or an ion thereof is formed from the nonconductive metallic compound by electromagnetic radiation.

A laser platable thermoplastic composition includes from about 38 wt % to about 90 wt % of a thermoplastic polymer, from about 0.01 wt % to about 15 wt % of a laser activatable metal compound, and from about 0.01 wt % to about 60 wt % of a magnetic filler. The magnetic filler includes a magnetic alloy. Methods for making laser platable thermoplastic compositions and articles formed therefrom—such as an induction heater for a domestic or commercial appliance—are also described.

A temperature sensor can include a resistor, a first electrical contact at a first end of the resistor, a second electrical contact at a second end of the resistor, and a resistance measuring device. The resistor can be formed of a matrix of sintered elemental transition metal particles interlocked with a matrix of fused thermoplastic polymer particles. The resistance measuring device can be connected to the first electrical contact and the second electrical contact to measure a resistance of the resistor.

A method of forming a metal silicide nanowire network that includes multiple metal silicide nanowires fused together in a disorderly arrangement on a substrate. The metal silicide nanowire network can be formed by applying a solution that contains silicon nanowires onto the substrate, forming a metal layer on the silicon nanowires, and performing a silicidation anneal such that the metal silicide nanowires are fused together in a disorderly arrangement, forming a mesh. After the silicidation anneal is performed, any unreacted silicon or metal can be selectively removed.

A multi-function rearview device for use with a vehicle includes a housing configured to be attached to the vehicle and to be moveable relative to the vehicle, a rearview element including at least one of a reflective element, a camera and a display element, a bezel formed at an outer portion of the multi-function rearview device surrounding the rearview element, with the rearview element being attached to at least one of the bezel and the housing, one or more light assemblies providing at least one or more light function indications, including a Human Machine Interface (HMI), and at least one sensor, the sensor controlling the one or more light assemblies or the display element.

Polymer binders, e.g., crosslinked polymer binders, have been found to be an effective film component in creating high quality transparent electrically conductive coatings or films comprising metal nanostructured networks. The metal nanowire films can be effectively patterned and the patterning can be performed with a high degree of optical similarity between the distinct patterned regions. Metal nanostructured networks are formed through the fusing of the metal nanowires to form conductive networks. Methods for patterning include, for example, using crosslinking radiation to pattern crosslinking of the polymer binder. The application of a fusing solution to the patterned film can result in low resistance areas and electrically resistive areas. After fusing, the network can provide desirable low sheet resistances while maintaining good optical transparency and low haze. A polymer overcoat can further stabilize conductive films and provide desirable optical effects. The patterned films can be useful in devices, such as touch sensors.

A multi-layer circuit board, successively constituted by surface sticking layer, single-layer circuit board, middle sticking layer, single-layer circuit board, surface sticking layer, said multi-layer circuit board is provided with a hole, a hole wall of said hole is formed with conductive seed layer, and partial outer surface of said surface sticking layer is formed with a circuit pattern layer of conductive seed layer, wherein said conductive seed layer comprises a ion implantation layer implanting below the hole wall of said hole and below partial outer surface of said surface sticking layer.