Abstract: Among other things, the present disclosure provides various agents. In some embodiments, provided agents can bind to beta-catenin. In some embodiments, the present disclosure provides technologies for modulating beta-catenin functions. In some embodiments, the present disclosure provides technologies for preventing and/or treating conditions, disorders or diseases associated with beta-catenin. In some embodiments, the present disclosure provides designed amino acids which can provide improved properties and/or activities. In some embodiments, the present disclosure provides agents comprising such amino acids.

Abstract: A gate stack structure. The structure includes (a) a semiconductor region and (b) a gate stack on top of the semiconductor region. The gate stack includes (i) a gate dielectric region on top of the semiconductor region, (ii) a first gate polysilicon region on top of the gate dielectric region, and (iii) a second gate polysilicon region on top of the first gate polysilicon region and doped with a type of dopants. The structure further includes (c) a diffusion barrier region and a spacer oxide region on a side wall of the gate stack. The diffusion barrier region (i) is sandwiched between the gate stack and the spacer oxide region and (ii) is in direct physical contact with both the first and second gate polysilicon regions, and (iii) comprises a material having a property of preventing a diffusion of oxygen-containing materials through the diffusion barrier region.

Abstract: A gate stack structure. The structure includes (a) a semiconductor region and (b) a gate stack on top of the semiconductor region. The gate stack includes (i) a gate dielectric region on top of the semiconductor region, (ii) a first gate polysilicon region on top of the gate dielectric region, and (iii) a second gate polysilicon region on top of the first gate polysilicon region and doped with a type of dopants. The structure further includes (c) a diffusion barrier region and a spacer oxide region on a side wall of the gate stack. The diffusion barrier region (i) is sandwiched between the gate stack and the spacer oxide region and (ii) is in direct physical contact with both the first and second gate polysilicon regions, and (iii) comprises a material having a property of preventing a diffusion of oxygen-containing materials through the diffusion barrier region.

Abstract: A structure and fabrication method for a gate stack used to define source/drain regions in a semiconductor substrate. The method comprises (a) forming a gate dielectric layer on top of the substrate, (b) forming a gate polysilicon layer on top of the gate dielectric layer, (c) implanting n-type dopants in a top layer of the gate polysilicon layer, (d) etching away portions of the gate polysilicon layer and the gate dielectric layer so as to form a gate stack on the substrate, and (e) thermally oxidizing side walls of the gate stack with the presence of a nitrogen-carrying gas. As a result, a diffusion barrier layer is formed at the same depth in the polysilicon material of the gate stack regardless of the doping concentration. Therefore, the n-type doped region of the gate stack has the same width as that of the undoped region of the gate stack.

Abstract: A structure and fabrication method for a gate stack used to define source/drain regions in a semiconductor substrate. The method comprises (a) forming a gate dielectric layer on top of the substrate, (b) forming a gate polysilicon layer on top of the gate dielectric layer, (c) implanting n-type dopants in a top layer of the gate polysilicon layer, (d) etching away portions of the gate polysilicon layer and the gate dielectric layer so as to form a gate stack on the substrate, and (e) thermally oxidizing side walls of the gate stack with the presence of a nitrogen-carrying gas. As a result, a diffusion barrier layer is formed at the same depth in the polysilicon material of the gate stack regardless of the doping concentration. Therefore, the n-type doped region of the gate stack has the same width as that of the undoped region of the gate stack.

Abstract: Methods such as Remote Plasma Nitridation (RPN) are used to introduce nitrogen into a gate dielectric layer. However, these methods yield nitrided layers where the layers are not uniform, both in cross-sectional profile and in nitrogen profile. Subjecting the nitrided layer to an additional NO anneal process increases the uniformity of the nitrided layer.

Abstract: A cleaning apparatus for cleaning a surface in which cleaning solution is distributed to the surface and substantially simultaneously extracted along with the dirt on the surface in a continuous operation as it moves along the surface is provided. The cleaning apparatus includes a housing and a liquid distribution system operatively associated with the housing. The liquid distribution system includes a fluid source providing a supply of the cleaning solution and a distributor fluidly connected to the fluid source for distributing the cleaning solution to the surface. A liquid recovery system is operatively associated with the housing and includes a suction nozzle and a recovery tank removably mounted to the housing and in fluid communication with the suction nozzle. A suction source is in fluid communication with the suction nozzle for applying suction to draw the cleaning solution and dirt from the surface through the suction nozzle and into the recovery tank.

Abstract: Methods such as Remote Plasma Nitridation (RPN) are used to introduce nitrogen into a gate dielectric layer. However, these methods yield nitrided layers where the layers are not uniform, both in cross-sectional profile and in nitrogen profile. Subjecting the nitrided layer to an additional NO anneal process increases the uniformity of the nitrided layer.

Abstract: Methods such as Remote Plasma Nitridation (RPN) are used to introduce nitrogen into a gate dielectric layer. However, these methods yield nitrided layers where the layers are not uniform, both in cross-sectional profile and in nitrogen profile. Subjecting the nitrided layer to an additional NO anneal process increases the uniformity of the nitrided layer.

Abstract: Methods such as Remote Plasma Nitridation (RPN) are used to introduce nitrogen into a gate dielectric layer. However, these methods yield nitrided layers where the layers are not uniform, both in cross-sectional profile and in nitrogen profile. Subjecting the nitrided layer to an additional NO anneal process increases the uniformity of the nitrided layer.

Abstract: A memo device utilizing a roll of paper that can be fed in opposite directions so that whether the device is used in a horizontal position or in a vertical position, writing can be commenced at the top of the paper adjacent to the open end so that the length of the writing can extend beyond the length of the paper originally extended from the paper roll.