Described herein is a technique capable of forming a film so as to fill a recess of a substrate. According to one aspect thereof, there is provided a substrate processing apparatus including: a substrate mounting table on which a substrate is placed; an adsorption inhibiting gas supplier configured to supply an adsorption inhibiting gas onto a surface of the substrate from above the substrate mounting table; and a source gas supplier configured to supply a source gas onto the surface of the substrate from above the substrate mounting table, wherein a distance D1 between a gas supply port provided in the adsorption inhibiting gas supplier and the substrate is greater than a distance D2 between a gas supply port provided in the source gas supplier and the substrate.

The invention includes apparatus and methods for instantiating and quantum printing materials, such as elemental metals, in a nanoporous carbon powder.

A method for depositing a silicon-containing film, the method comprising: placing a substrate comprising at least one surface feature into a flowable CVD reactor; introducing into the reactor at least one silicon-containing compound and at least one multifunctional organoamine compound to at least partially react the at least one silicon-containing compound to form a flowable liquid oligomer wherein the flowable liquid oligomer forms a silicon oxide coating on the substrate and at least partially fills at least a portion of the at least one surface feature. Once cured, the silicon carbonitride coating has excellent mechanical properties.

A method for depositing a silicon-containing film, the method comprising: placing a substrate comprising at least one surface feature into a flowable CVD reactor; introducing into the reactor at least one silicon-containing compound and at least one multifunctional organoamine compound to at least partially react the at least one silicon-containing compound to form a flowable liquid oligomer wherein the flowable liquid oligomer forms a silicon oxide coating on the substrate and at least partially fills at least a portion of the at least one surface feature. Once cured, the silicon carbonitride coating has excellent mechanical properties.

Inside a heating space of a heating chamber, a first heating treatment of moving a substrate along a substrate moving direction is performed by a first conveyor. After that, first conveyance processing of moving the substrate along a conveying direction is performed by a second conveyor. At this time, source mist is sprayed on the substrate by first thin film forming nozzles. Subsequently, second heating treatment is performed by a third conveyor. After that, second conveyance processing is performed by a fourth conveyor. At this time, source mist is sprayed on the substrate by second thin film forming nozzles.

Methods of forming structures using a neutral beam, structures formed using a neutral beam, and reactor systems for forming the structures are disclosed. The neutral beam can be used to provide activated species during deposition of a layer and/or to provide activated species to treat a deposited layer.

A laser processing machine includes a guide member with which a laser head is engaged so as to be movable to one side in a conveying direction, a moving device configured to move the laser head along the guide member, a counterweight which is movably engaged to the other side of the guide member in the conveying direction and moves along the guide member in a direction opposite to a moving direction of the laser head in conjunction with the laser head moved by the moving device, and a control device which controls the moving device to move the counterweight to a position facing the grease feeding device and to perform grease feeding to an engaged portion between the counterweight and the guide member.

Cobalt precursors are described, having application for vapor deposition of cobalt on substrates, such as in atomic layer deposition (ALD) and chemical vapor deposition (CVD) processes for forming interconnects, capping structures, and bulk cobalt conductors, in the manufacture of integrated circuitry and thin film products.

A composite tape and method of fabrication are provided which includes multiple layers and a laser-driven chemical vapor deposition (LCVD)-formed additive material in at least one layer of the multiple layers to enhance one or more properties of the composite tape. The LCVD-formed additive material is a single crystalline material and can include LCVD-formed granular material and/or LCVD-formed fiber material in the same or different layers of the composite tape to enhance, for instance, fracture strength and/or wear resistance of the composite tape.

The invention relates to a substrate processing apparatus comprising a reaction chamber provided with a substrate rack for holding a plurality of substrates in the reaction chamber. The substrate rack may have a plurality of spaced apart substrate holding provisions configured to hold the plurality of substrates. The apparatus may have an illumination system constructed and arranged to irradiate radiation with a range from 100 to 500 nanometers onto a top surface of the substrates.