摘要:
According to present invention, a semiconductor device includes a semiconductor substrate formed of GaAs, an adhesion layer formed of Pd or an alloy containing Pd on the semiconductor substrate, a barrier layer formed of Co or an alloy containing Co on the adhesion layer, and a metal layer formed of Cu, Ag or Au on the barrier layer.
摘要:
The disclosure provides a metal catalyst having a structure as shown in the Formula (1) or Formula (2), wherein M is palladium, copper, platinum, nickel or silver ions; X is fluorine, chlorine, bromine or iodine; and L is a chelator ligand of nitrogen-containing aromatic ring. The disclosure also provides a manufacturing method and applications of the metal catalyst.
摘要:
A plating method can improve adhesivity with a substrate. The plating method of performing a plating process on the substrate includes forming a vacuum-deposited layer 2A on the substrate 2 by performing a vacuum deposition process on the substrate 2; forming an adhesion layer 21 and a catalyst adsorption layer 22 on the vacuum-deposited layer 2A of the substrate 2; and forming a plating layer stacked body 23 having a first plating layer 23a and a second plating layer 23b which function as a barrier film on the catalyst adsorption layer 22 of the substrate 2. By forming the vacuum-deposited layer 2A, a surface of the substrate 2 can be smoothened, so that the vacuum-deposited layer 2A serving as an underlying layer can improve the adhesivity.
摘要:
A method for electroless deposition of aluminum on a substrate includes: activating the substrate; providing an aluminum ionic liquid; adding a reducing agent and an additive to the aluminum ionic liquid to form an electroless plating composition, wherein the additive may include a catalyst, an alloying element, or a combination thereof; and immersing the substrate in the electroless plating composition to have an aluminum layer deposited on the substrate. An article includes the electroless deposited aluminum layer.
摘要:
Method and apparatus for producing metal-coated optical fiber involves providing a length of optical fiber having a glass fiber with or without a carbon layer surrounded by a liquid-soluble polymeric coating. The optical fiber is passed through a series of solution baths such that the fiber will contact the solution in each bath for a predetermined dwell time, the series of solution baths effecting removal of the polymer coating and subsequent electroless plating of metal on the glass fiber. The optical fiber is collected after metal plating so that a selected quantity of the metal-coated optical fiber is gathered, Preferably, the glass fiber passes through the series of solution baths without contacting anything except for the respective solution in each.
摘要:
A catalyst layer can be uniformly formed on an entire surface of a substrate and an entire inner surface of a recess. A catalyst layer forming method of forming the catalyst layer on the substrate includes a first supply processing of forming a substrate surface catalyst layer 22A by supplying a catalyst liquid on the entire surface of the substrate 2; and a second supply processing of forming a recess inner surface catalyst layer 22B by supplying the catalyst liquid to a central portion of the substrate 2 while rotating the substrate 2.
摘要:
Articles are prepared to have a substrate and a silver-containing composition on either or both supporting sides of the substrate. The silver-containing composition can comprise either reducible silver ions or silver nanoparticles, complexed with a reactive polymer. The reactive polymer comprises: (a) greater than 1 mol % of recurring units comprising sulfonic acid or sulfonate groups, (b) at least 5 mol % of recurring units comprising a pendant group capable of crosslinking via [2+2] photocycloaddition, and optionally (c) at least 1 mol % of recurring units comprising a pendant amide, hydroxyl, lactam, phosphonic acid, or carboxylic acid group. Some other articles have a water-insoluble complex of reacted (crosslinked) polymer with reducible silver ions or silver nanoparticles on either or both supportive sides of the substrate. Such reacted polymer is derived from the noted reactive polymer.
摘要:
A pre-treatment method for plating can form a plating layer having sufficient adhesivity on an inner surface of a recess and on a surface of a substrate at an outside of the recess even when the recess has a high aspect ratio. The pre-treatment method for plating includes a preparation process of preparing the substrate having the recess; a first coupling layer forming process of forming a first coupling layer 21a at least on the inner surface of the recess of the substrate by using a first coupling agent; and a second coupling layer forming process of forming a second coupling layer 21b at least on the surface of the substrate at the outside of the recess by using a second coupling agent after the first coupling layer forming process.
摘要:
A method is provided for metallisation of non-conductive substrates providing a high adhesion of the deposited metal to the substrate material and thereby forming a durable bond. The method applies a novel combination of a metal oxide compound to promote adhesion and a transition metal plating catalyst compound promoting the metal layer formation.
摘要:
The present invention provides: a catalyst for electroless plating composed of a complex of a compound (X) and metal nanoparticles (Y), wherein the compound (X) is produced by polymerizing a monomer mixture (I) containing a (meth)acrylic acid-based monomer having at least one anionic functional group selected from the group consisting of a carboxyl group, a phosphoric acid group, a phosphorous acid group, a sulfonic acid group, a sulfinic acid group and a sulfenic acid group, and also provides a metal film produced using the catalyst, and a method for producing a metal film using the catalyst.