The present disclosure relates to a metal air filter including: a filter which is formed of a metallic material by electrodeposition and has a nano branch structure; an ionizer which conducts particles to be captured by the filter with negative charges; and a power supply which supplies a positive voltage for conducting the filter with positive charges and a negative voltage for the ionizer. The filter can be more simply manufactured at a lower cost than a conventional process.

A roughened nickel-plated sheet including a roughened nickel layer on at least one surface of a metal substrate as the outermost layer thereof, the roughened nickel layer being formed of a plurality of nickel protrusions. When the structure of the roughened nickel-plated sheet is observed at height positions with a focused ion beam scanning electron microscope (FIB-SEM), the absolute value of the change rate of the nickel occupancy is equal to or less than a predetermined value, and the nickel occupancy and the number of nickel protrusions present at a height position located 2.0 μm from the base position of the roughened nickel layer toward the surface in the height direction are equal to or more than predetermined values, respectively.

A method includes providing an electrically conductive mandrel having an outer surface layer comprising a preformed pattern. The metallic article is electroformed. The metallic article includes a plurality of electroformed elements formed in the preformed pattern on the outer surface layer of the mandrel. The plurality of electroformed elements have a first side adjacent to the outer surface layer of the mandrel and a second side. The metallic article is separated from the mandrel. The plurality of electroformed elements are interconnected such that the metallic article forms a unitary, free-standing piece. A solution is applied to create a blackening of the first side of the plurality of electroformed elements.

Disclosed herein is a composition including copper ions and at least one additive including a polyalkyleneimine backbone including N-hydrogen atoms, where (a) the polyalkyleneimine backbone has a mass average molecular weight MW of from 600 g/mol to 100 000 g/mol, (b) the N-hydrogen atoms are each substituted by a polyoxyalkylene group including an oxyethylene and a C.sub.3 to C.sub.6 oxyalkylene unit, and (c) the average number of oxyalkylene units in the polyoxyalkylene groups is of from more than 10 to less than 30 per N-hydrogen atom in the polyalkyleneimine.

This cylinder device includes a tubular cylinder that has an opening portion on at least one end side, a metal rod that protrudes through the opening portion of the cylinder, and a sliding contact member that is provided at the opening portion of the cylinder and comes into sliding contact with the rod. A chromium plating film is provided on a surface of the rod. An aspect ratio of an average crystallite diameter in a film thickness direction to an average crystallite diameter in an in-plane direction in the chromium plating film is 0.2 or smaller.

The present disclosure generally relates to a method for electroplating (or electrodeposition) a transition metal oxide composition that may be used in gas sensors, biological cell sensors, supercapacitors, catalysts for fuel cells and metal air batteries, nano and optoelectronic devices, filtration devices, structural components, and energy storage devices. The method includes electrodepositing the electrochemically active transition metal oxide composition onto a working electrode in an electrodeposition bath containing a molten salt electrolyte and a transition metal ion source. The electrode structure can be used for various applications such as electrochemical energy storage devices including high power and high-energy primary or secondary batteries.

A high-strength coatings and methods of fabrication to yield single-crystal-like nickel containing nanotwins and stacking faults.

A tin-plated copper terminal material in which on a substrate made of copper or copper alloy, a nickel-or-nickel-alloy layer, a copper-tin alloy layer, and a tin layer are laminated in this order; in this material, the tin layer has an average thickness 0.2 μm to 1.2 μm inclusive; the copper-tin alloy layer is a compound alloy layer in which Cu.sub.6Sn.sub.5 is a main ingredient and part of copper in the Cu.sub.6Sn.sub.5 is substituted with nickel, and an average crystal grain size is 0.2 μm to 1.5 μm inclusive; part of the copper-tin alloy layer appears on a surface of the tin layer and tin solidification parts exist like islands; and the tin solidification parts have an average diameter 10 μm to 1000 μm inclusive in a direction along the surface of the tin layer and an area ratio to the surface of the tin layer 1% to 90% inclusive.

An electrodeposited copper foil includes a bulk copper foil. When a weight of the electrodeposited copper foil is increased to 105.0 wt % during a thermogravimetric analysis (TGA) performed on the electrodeposited copper foil at a heating rate of 5° C./min and an air flow rate of 95 mL/min, a heating temperature of the TGA is defined as T.sub.105.0 wt % and in a range of 550° C. to 750° C.

Disclosed herein are embodiments of a coating composition and a method of using the same for forming metal coatings on substrates. In particular embodiments, the coating composition comprises a deep eutectic solvent and/or an ionic liquid; a metal precursor; an alkali metal salt; and an optional additive component. The coating composition and method embodiments disclosed herein provide durable, even, high-surface area coatings on various types of substrates and also can be used at low temperatures.