A wafer cleaning apparatus includes a polishing unit used in chemical mechanical polishing (CMP) of a wafer and a cleaning dispensing unit arranged to direct cleaning fluids toward a far edge of the wafer after the CMP of the wafer. A wafer cleaning method includes CMP of a wafer by a polishing unit and directing cleaning fluids toward a far edge of the wafer after the CMP of the wafer by a cleaning dispensing unit. Another method can include CMP, applying deionized water, and applying pH adjuster having a pH range from about 2 to about 13.

A heterojunction bipolar transistor includes a collector layer, a base layer, and an emitter layer that are stacked on a substrate. The collector layer includes a graded semiconductor layer in which an electron affinity increases from a side closer to the base layer toward a side farther from the base layer. An electron affinity of the base layer at an interface closer to the collector layer is equal to an electron affinity of the graded semiconductor layer at an interface closer to the base layer.

Provided is a package structure includes a first die, a first dielectric layer, a second dielectric layer and a carrier. The first dielectric layer covers a bottom surface of the first die. The first dielectric layer includes a first edge portion and a first center portion in contact with the bottom surface of the first die. The second dielectric layer is disposed on the first dielectric layer and laterally surrounding the first die. The second dielectric layer includes a second edge portion and a second center portion. The second edge portion is located on the first edge portion, and the second edge portion is thinner than the second center portion. The carrier is bonded to the first dielectric layer through a bonding film.

A method is provided in which a monitor cell is made that is substantially identical to the flash memory cells of an embedded memory array. The monitor cell is formed simultaneously with the cells of the memory array, and so in certain critical aspects, is exactly comparable. An aperture is formed that extends through the control gate and intervening dielectric to the floating gate of the monitor cell. To prevent silicide contamination during a subsequent CMP process, a silicide protection layer (SPL), such as a resist protective oxide, is formed over exposed portions of the control gate prior to formation of a silicide contact formed on the floating gate. The SPL is formed simultaneously with existing manufacturing processes to avoid additional process steps.

A semiconductor device includes a first semiconductor chip having a first surface and a second surface; a first adhesive layer on the first surface; a second semiconductor chip that includes a third surface and a fourth surface, and a connection bump on the third surface. The connection bump is coupled to the first adhesive layer. The semiconductor device includes a wiring substrate connected to the connection bump. The semiconductor device includes a first resin layer covering the connection bump between the second semiconductor chip and the wiring substrate, and covers one side surface of the second semiconductor chip connecting the third surface and the fourth surface. The first adhesive layer covers an upper portion of the at least one side surface. The first resin layer covers a lower portion of the t least one side surface. The first adhesive layer and the first resin layer contact each other.

Embodiments relate to a semiconductor structure and a method for fabricating the same. The method includes: providing a substrate, a first trench being formed in the substrate; forming a protective layer in the first trench, the protective layer covering a side wall and a bottom of the first trench; etching the protective layer and the substrate at the bottom of the first trench to form second trenches; forming a passivation layer at a bottom of each of the second trenches; and etching a side wall of each of the second trenches to form a groove, and forming a dielectric layer in the groove. The method can eliminate a process of forming a bit line contact structure, thereby reducing resistance of a bit line and simplifying fabrication processes of the bit line.

Embodiments relate to a semiconductor structure and a method for fabricating the same. The method includes: providing a substrate, where a plurality of first trench initial structures are formed on the substrate, and the first trench initial structures extend along a first direction; and sequentially performing a thermal oxidation process and an oxide etching process on trench walls of the first trench initial structures to form first trenches whose trench widths satisfy a first preset dimension. The semiconductor structure and the method for fabricating the same can precisely control a trench width dimension of a trench, to form an isolation structure having a precise dimension in the trench, thereby effectively reducing parasitic capacitance and improving production yield and electrical properties of the semiconductor structure.

A method includes forming a fin extending from a substrate; depositing a liner over a top surface and sidewalls of the fin, where the minimum thickness of the liner is dependent on selected according to a first germanium concentration of the fin; forming a shallow trench isolation (STI) region adjacent the fin; removing a first portion of the liner on sidewalls of the fin, the first portion of the liner being above a topmost surface of the STI region; and forming a gate stack on sidewalls and a top surface of the fin, where the gate stack is in physical contact with the liner.

There is provided a semiconductor device including a first semiconductor base substrate, a second semiconductor base substrate that is bonded onto a first surface side of the first semiconductor base substrate, a through electrode that is formed to penetrate from a second surface side of the first semiconductor base substrate to a wiring layer on the second semiconductor base substrate, and an insulation layer that surrounds a circumference of the through electrode formed inside the first semiconductor base substrate.

A resistor-transistor-logic circuit with GaN structures, including a 2DEG resistor having a drain connected with an operating voltage, and a logic FET having a gate connected to an input voltage, a source grounded and a drain connected with a source of the 2DEG resistor and connected collectively to an output voltage.