Patent application number | Description | Published |
20090297696 | METHODS FOR FORMING CONDUCTIVE TITANIUM OXIDE THIN FILMS - The present disclosure relates to the deposition of conductive titanium oxide films by atomic layer deposition processes. Amorphous doped titanium oxide films are deposited by ALD processes comprising titanium oxide deposition cycles and dopant oxide deposition cycles and are subsequently annealed to produce a conductive crystalline anatase film. Doped titanium oxide films may also be deposited by first depositing a doped titanium nitride thin film by ALD processes comprising titanium nitride deposition cycles and dopant nitride deposition cycles and subsequently oxidizing the nitride film to form a doped titanium oxide film. The doped titanium oxide films may be used, for example, in capacitor structures. | 12-03-2009 |
20090324821 | METHODS FOR FORMING THIN FILMS COMPRISING TELLURIUM - Methods for controllably forming Sb—Te, Ge—Te, and Ge—Sb—Te thin films are provided. ALD processes can be used to deposit a first film comprising ZnTe. Providing an antimony source chemical, such as SbI | 12-31-2009 |
20100009078 | Synthesis and Use of Precursors for ALD of Tellurium and Selenium Thin Films - Atomic layer deposition (ALD) processes for forming Te-containing thin films, such as Sb—Te, Ge—Te, Ge—Sb—Te, Bi—Te, and Zn—Te thin films are provided. ALD processes are also provided for forming Se-containing thin films, such as Sb—Se, Ge—Se, Ge—Sb—Se, Bi—Se, and Zn—Se thin films are also provided. Te and Se precursors of the formula (Te,Se)(SiR | 01-14-2010 |
20120329208 | SYNTHESIS AND USE OF PRECURSORS FOR ALD OF GROUP VA ELEMENT CONTAINING THIN FILMS - Atomic layer deposition (ALD) processes for forming Group VA element containing thin films, such as Sb, Sb—Te, Ge—Sb and Ge—Sb—Te thin films are provided, along with related compositions and structures. Sb precursors of the formula Sb(SiR | 12-27-2012 |
20140174342 | METHODS FOR INCREASING GROWTH RATE OF THIN FILMS - The present invention generally related to adding Indium precursors to deposition processes for thin films. Indium precursors are added in order to increase the growth rate per cycle of the deposition process. A plurality of deposition processes are disclosed herein which comprising a plurality of deposition cycles and providing an In-precursor pulse before at least one reactant pulse in at least one deposition cycle. The In-precursor can be added for increasing the average growth rate per cycle by at least 50% and in many examples above 500% compared to the growth rate of a similar deposition process without providing an In-precursor. Examples disclosed herein include the deposition of thin films comprising pnictides or chalcogenides, made by atomic layer deposition. | 06-26-2014 |
20140273477 | Si PRECURSORS FOR DEPOSITION OF SiN AT LOW TEMPERATURES - Methods and precursors for depositing silicon nitride films by atomic layer deposition (ALD) are provided. In some embodiments the silicon precursors comprise an iodine ligand. The silicon nitride films may have a relatively uniform etch rate for both vertical and the horizontal portions when deposited onto three-dimensional structures such as FinFETS or other types of multiple gate FETs. In some embodiments, various silicon nitride films of the present disclosure have an etch rate of less than half the thermal oxide removal rate with diluted HF (0.5%). | 09-18-2014 |
20140273528 | Si PRECURSORS FOR DEPOSITION OF SiN AT LOW TEMPERATURES - Methods and precursors for depositing silicon nitride films by atomic layer deposition (ALD) are provided. In some embodiments the silicon precursors comprise an iodine ligand. The silicon nitride films may have a relatively uniform etch rate for both vertical and the horizontal portions when deposited onto three-dimensional structures such as FinFETS or other types of multiple gate FETs. In some embodiments, various silicon nitride films of the present disclosure have an etch rate of less than half the thermal oxide removal rate with diluted HF (0.5%). | 09-18-2014 |
20140273531 | Si PRECURSORS FOR DEPOSITION OF SiN AT LOW TEMPERATURES - Methods and precursors for depositing silicon nitride films by atomic layer deposition (ALD) are provided. In some embodiments the silicon precursors comprise an iodine ligand. The silicon nitride films may have a relatively uniform etch rate for both vertical and the horizontal portions when deposited onto three-dimensional structures such as FinFETS or other types of multiple gate FETs. In some embodiments, various silicon nitride films of the present disclosure have an etch rate of less than half the thermal oxide removal rate with diluted HF (0.5%). | 09-18-2014 |