A plating solution for electroless plating is disclosed, the solution including a metal salt, a reducing agent, a complexing agent, and a dispersion including polytetrafluoroethylene (PTFE) particulate matter and at least one particulate matter stabilizer, where said dispersion includes 400 parts per million or less of perfluorooctanoic acid (PFOA), and said dispersion is usable for an electroless plating bath to form a coating including PTFE particulate matter on an article.

A semiconductor processing station including a central transfer chamber, a load lock chamber disposed adjacent to the central transfer chamber, and a cooling stage disposed adjacent to the load lock chamber and the central transfer chamber is provided. The load lock chamber is adapted to contain a wafer carrier including a plurality of wafers. The central transfer chamber communicates between the cooling stage and the load lock chamber to transfer a wafer of the plurality of wafers between the cooling stage and the load lock chamber.

A chamber includes a sidewall, a cooling pipe, and an external pipe. The cooling pipe includes a first segment extending along the sidewall of the chamber, and includes multiple purge nozzles. The external pipe extends to inside the chamber and is connected to the first segment of the cooling pipe. A semiconductor processing station includes a central transfer chamber, a load lock chamber, and a cooling stage. The load lock chamber and the cooling stage are disposed adjacent to the central transfer chamber. The load lock chamber is adapted to contain a wafer carrier having multiple wafers. The central transfer chamber communicates between the cooling stage and the load lock chamber to transfer a wafer between the cooling stage and the load lock chamber. A semiconductor process using the semiconductor processing station is also provided.

A deposition method relating to semiconductor technology is presented. The deposition method includes: conducting a first deposition in a reaction chamber at a first deposition temperature; conducting a cool-down process on the reaction chamber, and conducting a second deposition during the cool-down process. In the first deposition, the thin-films deposited on the periphery of a wafer are thicker than those deposited on the center of a wafer, while in the second deposition, the thin-films deposited on the periphery of a wafer are thinner that those deposited on the center of a wafer. Therefore the thin-films deposited by this deposition method are more homogeneous in thickness that those deposited with conventional methods.

A high-temperature long lifespan electrode includes a through type aluminum sheet, a plurality of first hollow protrusion members protruded to one side of the through type aluminum sheet, a plurality of second hollow protrusion members protruded to the other side of the through type aluminum sheet, a metal protection layer coated on the through type aluminum sheet, the plurality of first hollow protrusion members, a first active material sheet bonded to one surface of the through type aluminum sheet, and a second active material sheet bonded to the other surface of the second surface of the through type aluminum sheet.

A semiconductor processing station includes first and second chambers, and a cooling stage. The second chamber includes a cooling pipe disposed inside the second chamber, and an external pipe. The cooling pipe includes a first segment disposed along a sidewall of the second chamber, and a second segment disposed perpendicular to the first segment and located above a wafer carrier in the second chamber. An end of the second segment is connected to an end of the first segment. The external pipe is connected to the second segment distal from the end of the second segment to provide a fluid to flow through the cooling pipe from an exterior to an interior of the second chamber. The fluid discharges toward the wafer carrier through the first segment. The first chamber is surrounded by the second chamber and the cooling stage, and communicates between the cooling stage and the second chamber.