摘要:
A method includes providing a plurality of active regions on a substrate, and at least a first device isolation layer between two of the plurality of active regions, wherein the plurality of active regions extend in a first direction; providing a gate layer extending in a second direction, the gate layer forming a plurality of gate lines including a first gate line and a second gate line extending in a straight line with respect to each other and having a space therebetween, each of the first gate line and second gate line crossing at least one of the active regions, providing an insulation layer covering the first device isolation layer and covering the active region around each of the first and second gate lines; and providing an inter-gate insulation region in the space between the first gate line and the second gate line.
摘要:
A method of fabricating a semiconductor device having a dual gate allows for the gates to have a wide variety of threshold voltages. The method includes forming a gate insulation layer, a first capping layer, and a barrier layer in the foregoing sequence across a first region and a second region on a substrate, exposing the gate insulation layer on the first region by removing the first capping layer and the barrier layer from the first region, forming a second capping layer on the gate insulation layer in the first region and on the barrier layer in the second region, and thermally processing the substrate on which the second capping layer is formed. The thermal processing causes material of the second capping layer to spread into the gate insulation layer in the first region and material of the first capping layer to spread into the gate insulation layer in the second region. Thus, devices having different threshold voltages can be formed in the first and second regions.
摘要:
Methods and apparatus for plasma annealing layers of a microelectronic capacitor on a substrate are provided to improve the leakage current characteristics of a capacitor and/or to reduce the number of impurities in an electrode.
摘要:
A method for forming a capacitor of a semiconductor device. A lower electrode is prebaked before a dielectric layer is formed on the lower electrode. As a result, moisture or contaminants are removed from the lower electrode, increasing adhesion between the lower electrode and the dielectric layer formed on the lower electrode, thereby preventing the dielectric layer from being lifted and cracked due to inferior coating properties.
摘要:
A complementary metal oxide semiconductor (CMOS) device including: a semiconductor substrate including a NMOS region and a PMOS region; a NMOS metal gate stack structure on the NMOS region and including a first high dielectric layer, a first barrier metal gate on the first high dielectric layer and including a metal oxide nitride layer, and a first metal gate on the first barrier metal gate; and a PMOS metal gate stack structure on the PMOS region and including a second high dielectric layer, a second barrier metal gate on the second high dielectric layer and including a metal oxide nitride layer, and a second metal gate on the second barrier metal gate.
摘要:
A method of forming a high dielectric film for a semiconductor device comprises supplying a first source gas to a reaction chamber during a first time interval, supplying a first reactant gas to the reaction chamber during a second time interval after the first time interval, supplying a second source gas to the reaction chamber for a third time interval after the second time interval, supplying a second reactant gas to the reaction chamber for a fourth time interval after the third time interval, and supplying an additive gas including nitrogen to the reaction chamber during a fifth time interval.
摘要:
The method involves providing a semiconductor substrate comprising first and second regions in which different conductive metal-oxide semiconductor (MOS) transistors are to be formed. A gate dielectric layer above the semiconductor substrate sequentially forming a first metallic conductive layer and a second metallic conductive layer on and above the gate dielectric layer; covering the second region with a mask, and performing ion plantation of a first material into the first metallic conductive layer of the first region. Removing the second metallic conductive layer of the first region and forming a first gate electrode of the first region and a second gate electrode of the second region by patterning the gate dielectric layer and the first metallic conductive layer of the first region, and the gate dielectric layer, the first metallic conductive layer, and the second metallic conductive layer of the second region. The first and second regions of the semiconductor substrate having different work functions because the gate electrodes of the first and second regions have different thicknesses and at least one of the first and second gate electrodes include impurities.
摘要:
A method of forming a high dielectric film for a semiconductor device comprises supplying a first source gas to a reaction chamber during a first time interval, supplying a first reactant gas to the reaction chamber during a second time interval after the first time interval, supplying a second source gas to the reaction chamber for a third time interval after the second time interval, supplying a second reactant gas to the reaction chamber for a fourth time interval after the third time interval, and supplying an additive gas including nitrogen to the reaction chamber during a fifth time interval.
摘要:
A ferroelectric random access memory (FRAM) device, and a fabrication method therefor, includes seed layers above and below a ferroelectric layer. The seed layers formed above and below faces of the ferroelectric layer can prevent an imprint phenomenon from being generated in a ferroelectric capacitor by making the characteristics of the upper and lower interfaces of the ferroelectric layer be the same. This is accomplished by providing upper and lower seed layers that are crystallized prior to the ferroelectric layer during a thermal treatment. This results in crystallization occurring from the upper and lower faces to the center of the ferroelectric layer, making the characteristics of the upper and lower interfaces of the ferroelectric layer the same, thereby improving ferroelectric capacitor characteristics.
摘要:
A method of fabricating a semiconductor device having a dual gate allows for the gates to have a wide variety of threshold voltages. The method includes forming a gate insulation layer, a first capping layer, and a barrier layer in the foregoing sequence across a first region and a second region on a substrate, exposing the gate insulation layer on the first region by removing the first capping layer and the barrier layer from the first region, forming a second capping layer on the gate insulation layer in the first region and on the barrier layer in the second region, and thermally processing the substrate on which the second capping layer is formed. The thermal processing causes material of the second capping layer to spread into the gate insulation layer in the first region and material of the first capping layer to spread into the gate insulation layer in the second region. Thus, devices having different threshold voltages can be formed in the first and second regions.