Class / Patent application number | Description | Number of patent applications / Date published |
438485000 | Deposition utilizing plasma (e.g., glow discharge, etc.) | 10 |
20080299747 | METHOD FOR FORMING AMORPHOUSE SILICON FILM BY PLASMA CVD - A method includes introducing a silicon-containing source gas and a dilution gas to a reactor to deposit an amorphous silicon film on a substrate by plasma CVD; and adjusting a compressive film stress to 300 MPa or less and a uniformity of film thickness within the substrate surface to ±5% or less of the amorphous silicon film depositing on the substrate as a function of a flow rate of the source gas, a flow rate of the dilution gas, and a pressure of the reactor which are used as control parameters. | 12-04-2008 |
20090233425 | PLASMA PROCESSING APPARATUS AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - By an evacuation unit including first and second turbo molecular pumps connected in series, the ultimate pressure in a reaction chamber is reduced to ultra-high vacuum. By a knife-edge-type metal-seal flange, the amount of leakage in the reaction chamber is reduced. A microcrystalline semiconductor film and an amorphous semiconductor film are stacked in the same reaction chamber where the pressure is reduced to ultra-high vacuum. By forming the amorphous semiconductor film covering the surface of the microcrystalline semiconductor film, oxidation of the microcrystalline semiconductor film is prevented. | 09-17-2009 |
20100068870 | High Speed Thin Film Deposition via Pre-Selected Intermediate - A method and apparatus for the unusually high rate deposition of thin film materials on a stationary or continuous substrate. The method includes delivery of a pre-selected precursor intermediate to a deposition chamber and formation of a thin film material from the intermediate. The intermediate is formed outside of the deposition chamber and includes a metastable species such as a free radical. The intermediate is pre-selected to include a metastable species conducive to the formation of a thin film material having a low defect concentration. By forming a low defect concentration material, deposition rate is decoupled from material quality and heretofore unprecedented deposition rates are achieved. In one embodiment, the pre-selected precursor intermediate is SiH | 03-18-2010 |
20100105195 | METHOD AND APPARATUS FOR FORMING A FILM BY DEPOSITION FROM A PLASMA - An apparatus is described for depositing a film on a substrate from a plasma. The apparatus comprises an enclosure, a plurality of plasma generator elements disposed within the enclosure, and means, also within the enclosure, for supporting the substrate. Each plasma generator element comprises a microwave antenna having an end from which microwaves are emitted, a magnet disposed in the region of the said antenna end and defining therewith an electron cyclotron resonance region in which a plasma can be generated, and a gas entry element having an outlet for a film precursor gas or a plasma gas. The outlet is arranged to direct gas towards a film deposition area situated beyond the magnet, as considered from the microwave antenna, the outlet being located in, or above, the hot electron confinement envelope. | 04-29-2010 |
20110189841 | FABRICATION OF LARGE GRAIN POLYCRYSTALLINE SILICON FILM BY NANO ALUMINUM-INDUCED CRYSTALLIZATION OF AMORPHOUS SILICON - One aspect of the present invention relates to a method for fabricating a polycrystalline silicon film. In one embodiment, the method includes the steps of providing a substrate having a thermally-grown silicon dioxide layer, forming an amorphous silicon film on the thermally-grown silicon dioxide layer of the substrate, forming an aluminum layer on the amorphous silicon film to form a structure having the substrate, the amorphous silicon film and the aluminum layer, and annealing the structure at an annealing temperature for a period of time in an N | 08-04-2011 |
20140113439 | METHOD OF DEPOSITING AN AMORPHOUS SILICON FILM - A method is for depositing in a chamber an amorphous silicon layer on a surface of a semiconducting or insulating substrate. In the method, the surface is pretreated with a NH | 04-24-2014 |
20140206180 | THIN FILM FORMATION METHOD - A thin film formation method to form an amorphous silicon film containing an impurity on a surface of an object to be processed in a process chamber that allows vacuum exhaust includes supplying a silane-based gas composed of silicon and hydrogen into the process chamber in a state that the silane-based gas is adsorbed onto the surface of the object without supplying an impurity-containing gas, supplying the impurity-containing gas into the process chamber to form the amorphous silicon film containing the impurity without supplying the silane-based gas, and performing the supplying of the silane-based gas and the supplying of the impurity-containing gas alternately and repeatedly such that the impurity reacts with the silane-based gas. | 07-24-2014 |
20140357064 | TENSILE STRESSED DOPED AMORPHOUS SILICON - The method and apparatus disclosed herein relate to preparing a stack structure for an electronic device on a semiconductor substrate. A particularly beneficial application of the method is in reduction of internal stress in a stack containing multiple layers of silicon. Typically, though not necessarily, the internal stress is a compressive stress, which often manifests as wafer bow. In some embodiments, the method reduces the internal stress of a work piece by depositing phosphorus doped silicon layers having low internal compressive stress or even tensile stress. The method and apparatus disclosed herein can be used to reduce compressive bow in stacks containing silicon. | 12-04-2014 |
20150093885 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE USING INERT, MATERIAL, AND OXIDATION-REDUCTION GASES - According to one embodiment, a method of manufacturing a semiconductor device. The method includes introducing an inert gas and a material gas into a predetermined space, applying a voltage to generate plasma in the space after introducing the inert gas and the material gas so as to form a semiconductor layer on a substrate, introducing an oxidation-reduction gas in the predetermined space after the voltage is applied, and stopping the introduction of the material gas, the inert gas, and the oxidation-reduction gas after the voltage is applied. | 04-02-2015 |
20160148800 | SELECTIVE INHIBITION IN ATOMIC LAYER DEPOSITION OF SILICON-CONTAINING FILMS - Methods of selectively inhibiting deposition of silicon-containing films deposited by atomic layer deposition are provided. Selective inhibition involves exposure of an adsorbed layer of a silicon-containing precursor to a hydrogen-containing inhibitor, and in some instances, prior to exposure of the adsorbed layer to a second reactant. Exposure to a hydrogen-containing inhibitor may be performed with a plasma, and methods are suitable for selective inhibition in thermal or plasma enhanced atomic layer deposition of silicon-containing films. | 05-26-2016 |