Exemplary deposition methods may include introducing hydrogen into a processing chamber, a powder disposed within a processing region of the processing chamber. The method may include striking a first plasma in the processing region, the first plasma including energetic hydrogen species. The method may include exposing the powder to the energetic hydrogen species in the processing region. The method may include chemically reducing the powder through a reaction of the powder with the energetic hydrogen species. The method may include removing process effluents including unreacted hydrogen from the processing region. The method may also include forming a layer of material on grains of the powder within the processing region.

A plasma reaction system may include a plasma chamber and an ancillary reaction chamber. The plasma chamber may include a plasma chamber inlet for introducing reactant gases into the plasma chamber, plasma chamber walls that form an interior space in which chemical reactions between the reactant gases may occur, a plasma generated within the plasma chamber, a waveguide for directing energy towards the plasma generated within the plasma chamber, and a plasma chamber outlet for carrying first outlet gases from the plasma chamber. The ancillary reaction chamber may include an ancillary reaction chamber inlet configured to obtain the first outlet gases from the plasma chamber, ancillary reaction chamber walls that form an interior space of the ancillary reaction chamber in which second chemical reactions between the outlet gases may occur, and an ancillary reaction chamber outlet for carrying second outlet gases from the ancillary reaction chamber.

A chemical vapor deposition apparatus includes a chamber, a susceptor supporting a substrate, a backing plate to which power is applied, a diffuser providing a deposition gas, and a first insulator. The first insulator may include a first portion covering a top surface of the backing plate, and a second portion assembled with the first portion and covering a sidewall of the backing plate.

A plasma etching method using a Faraday cage, comprising: providing a Faraday cage having a mesh portion on an upper surface thereof in a plasma etching apparatus; providing a quartz substrate having a metal mask with an opening provided on one surface of the metal mask in the Faraday cage; and patterning the quartz substrate with plasma etching.

Textured silicon components of a semiconductor processing chamber having hillock-shaped or pyramid-shaped structures on its surface, and a method of texturing such silicon components. The silicon component can be selectively textured using chemical means to form the hillock-shaped structures to increase the surface area of the silicon component to improve polymer adhesion.

A semiconductor manufacturing apparatus according to an embodiment includes: a chamber that houses a semiconductor substrate; and a plurality of coils provided on a lateral surface of the chamber. The chamber has a first spatial region enclosed above the semiconductor substrate by a first coil that is one of the plurality of coils, a first gas introduction port communicating with the first spatial region, a second spatial region enclosed by a second coil that is different from the first coil among the plurality of coils, and a second gas introduction port communicating with the second spatial region.

A plasma processing apparatus includes: a processing container; an electrode that places a substrate thereon within the processing container; a plasma generation source that supplies plasma into the processing container; a bias power supply that supplies bias power to the electrode; a part exposed to the plasma in the processing container; a DC power supply that supplies a DC voltage to the part; a controller that executes a process including a first control procedure in which a first state in which the DC voltage has a first voltage value and a second state in which the DC voltage has a second voltage value higher than the first voltage value are periodically repeated, and the first voltage value is applied in a partial period in each cycle of a potential of the electrode, and the second voltage value is applied such that the first state and the second state are continuous.

A substrate processing system includes an upper chamber and a gas delivery system to supply a gas mixture to the upper chamber. An RF generator generates plasma in the upper chamber. A lower chamber includes a substrate support. A dual ion filter is arranged between the upper chamber and the lower chamber. The dual ion filter includes an upper filter including a first plurality of through holes configured to filter ions. A lower filter includes a second plurality of through holes configured to control plasma uniformity.

A method of forming a radio frequency (RF) strap for use in a process chamber is provided. The method includes positioning a core strap including a first material that is electrically and thermally conductive in a first electrochemical bath. The first electrochemical bath includes a first solvent and a first plating precursor. The method further includes forming a first protective coating on an outer surface of the core strap, removing the first solvent and the first plating precursor from the core strap having the first protective coating formed thereon, post-treating the core strap having the first protective coating formed thereon, positioning the core strap having the first protective coating formed thereon in a second electrochemical bath, and forming a second protective coating on an outer surface of the first protective coating. The first protective coating includes nickel, the second electrochemical bath includes a second solvent and a second plating precursor, and the second protective coating includes gold.

Disclosed is a substrate treating apparatus. The substrate treating apparatus includes a process chamber that provides a treatment space in an interior thereof, a support unit that supports a substrate in the treatment space, a gas supply unit that supplies a process gas into the treatment space, and a plasma source that generates plasma from the process gas, the support unit includes a support plate, on which the substrate is positioned, and an edge ring assembly that surrounds the substrate supported on the support plate, and that forms the plasma in the substrate, and the edge ring assembly includes a focusing ring formed of a first material, and that forms distribution of the plasma in the substrate, and a cover ring provided in an area of the substrate, and including a reinforced surface layer provided by injecting a network modifier into an empty site of the network structure.