Patent application number | Description | Published |
20080254637 | Methods for removing photoresist defects and a source gas for same - A method for removing at least one photoresist defect is disclosed. The photoresist defect is exposed to a plasma produced from a source gas including oxygen and a non-oxidizing gas in a plasma reactor, wherein the oxygen is present in the source gas at from 1% by volume to about 89% by volume. The non-oxidizing gas includes a mixture of hydrogen and nitrogen, ammonia or combinations thereof. A method for processing a semiconductor device structure is also disclosed, as are embodiments of the source gas. | 10-16-2008 |
20110272754 | MEMORIES AND THEIR FORMATION - Memories and their formation are disclosed. One such memory has a first array of first memory cells extending in a first direction from a first surface of a semiconductor. A second array of second memory cells extends in a second direction, opposite to the first direction, from a second surface of the semiconductor. Both arrays may be non-volatile memory arrays. For example, one of the memory arrays may be a NAND flash memory array, while the other may be a one-time-programmable memory array. | 11-10-2011 |
20140162455 | METHOD OF FORMING A PLANAR SURFACE FOR A SEMICONDUCTOR DEVICE STRUCTURE, AND RELATED METHODS OF FORMING A SEMICONDUCTOR DEVICE STRUCTURE - A method of forming a planar surface for a semiconductor device structure. The method comprises forming a particle film comprising a plurality of discrete particles on a non-planar surface of a semiconductor device structure. The semiconductor device structure is subjected to at least one chemical-mechanical polishing process after forming the particle film on the non-planar surface of the semiconductor device structure. Methods of forming a semiconductor device structure are also described. | 06-12-2014 |
20140256098 | MEMORIES WITH MEMORY ARRAYS EXTENDING IN OPPOSITE DIRECTIONS FROM A SEMICONDUCTOR AND THEIR FORMATION - Memories and their formation are disclosed. One such memory has a first array of first memory cells extending in a first direction from a first surface of a semiconductor. A second array of second memory cells extends in a second direction, opposite to the first direction, from a second surface of the semiconductor. Both arrays may be non-volatile memory arrays. For example, one of the memory arrays may be a NAND flash memory array, while the other may be a one-time-programmable memory array. | 09-11-2014 |