摘要:
In order to provide an adhesive composition for electronic components that is excellent in adhesion durability under long-term high temperature conditions, thermal cyclability, and insulation reliability, designed is an adhesive composition for electronic components containing a thermoplastic resin (a), an epoxy resin (b), a hardener (c), and an organopolysiloxane (d), wherein the glass transition temperature (Tg) after curing is −10° C. to 50° C. and the rate of change of Tg after heat-treating the composition at 175° C. for 1000 hours is 15% or less.
摘要:
In order to provide an adhesive composition for electronic components that is excellent in adhesion durability under long-term high temperature conditions, thermal cyclability, and insulation reliability, designed is an adhesive composition for electronic components containing a thermoplastic resin (a), an epoxy resin (b), a hardener (c), and an organopolysiloxane (d), wherein the glass transition temperature (Tg) after curing is −10° C. to 50° C. and the rate of change of Tg after heat-treating the composition at 175° C. for 1000 hours is 15% or less.
摘要:
In one embodiment, a method for treating a surface of a semiconductor substrate is disclosed. The semiconductor substrate has a first pattern covered by a resist and a second pattern not covered by the resist. The method includes supplying a resist-insoluble first chemical solution onto a semiconductor substrate to subject the second pattern to a chemical solution process. The method includes supplying a mixed liquid of a water repellency agent and a resist-soluble second chemical solution onto the semiconductor substrate after the supply of the first chemical solution, to form a water-repellent protective film on a surface of at least the second pattern and to release the resist. In addition, the method can rinse the semiconductor substrate using water after the formation of the water-repellent protective film, and dry the rinsed semiconductor substrate.
摘要:
In one embodiment, a method for treating a surface of a semiconductor substrate is disclosed. The semiconductor substrate has a first pattern covered by a resist and a second pattern not covered by the resist. The method includes supplying a resist-insoluble first chemical solution onto a semiconductor substrate to subject the second pattern to a chemical solution process. The method includes supplying a mixed liquid of a water repellency agent and a resist-soluble second chemical solution onto the semiconductor substrate after the supply of the first chemical solution, to form a water-repellent protective film on a surface of at least the second pattern and to release the resist. In addition, the method can rinse the semiconductor substrate using water after the formation of the water-repellent protective film, and dry the rinsed semiconductor substrate.
摘要:
A power supply connecting member is configured by a housing of the power supply connecting member molded with a terminal of the power supply connecting member by a resin. The terminal of the power supply connecting member has three bent portions, two bent portions are perpendicular to an axial direction before the terminal is bent, and the remaining bent portion is parallel to the axial direction before the terminal is bent. A distal end on a bending side of the terminal of the power supply connecting member is inserted into the power supply connecting member housing to configure the power supply connecting member. An output shaft support portion unit is configured such that a bearing to hold a rotor and an elastic member (spring for example) to hold the bearing are stored in a bottom cover (lower cover) having a recessed portion and a lid cover (upper cover) is press-fitted.
摘要:
A method of manufacturing a semiconductor device is disclosed. The method forms a semiconductor device including a workpiece structure having a first region and second region located adjacent to the first region formed therein. The first region includes a first pattern and the second region includes a second pattern having at least a greater pattern width or a smaller aspect ratio than the first pattern. The method includes forming the first pattern by providing a first film having a first contact angle at a top portion thereof and the second pattern by providing a second film having a second contact angle less than the first contact angle at a top portion thereof; cleaning the first and the second regions by a chemical liquid; rinsing the cleaned first and the second regions by a rinse liquid; and drying the rinsed first and the second regions.
摘要:
According to one embodiment, a substrate processing method is disclosed. The method can include treating a substrate with a first liquid. The substrate has a structural body formed on a major surface of the substrate. The method can include forming a support member supporting the structural body by bringing a second liquid into contact with the substrate wetted by the first liquid, and changing at least a portion of the second liquid into a solid by carrying out at least one of causing the second liquid to react, reducing a quantity of a solvent included in the second liquid, and causing at least a portion of a substance dissolved in the second liquid to be separated. The method can include removing the support member by changing at least a part of the support member from a solid phase to a gaseous phase, without passing through a liquid phase.
摘要:
A method of manufacturing a semiconductor device is disclosed. The method forms a semiconductor device including a workpiece structure having a first region and second region located adjacent to the first region formed therein. The first region includes a first pattern and the second region includes a second pattern having at least a greater pattern width or a smaller aspect ratio than the first pattern. The method includes forming the first pattern by providing a first film having a first contact angle at a top portion thereof and the second pattern by providing a second film having a second contact angle less than the first contact angle at a top portion thereof; cleaning the first and the second regions by a chemical liquid; rinsing the cleaned first and the second regions by a rinse liquid; and drying the rinsed first and the second regions.
摘要:
In one embodiment, an apparatus of treating a surface of a semiconductor substrate comprises a substrate holding and rotating unit which holds a semiconductor substrate with a surface having a convex pattern formed thereon and rotates the semiconductor substrate, a first supply unit which supplies a chemical and/or pure water to the surface of the semiconductor substrate, and a second supply unit which supplies a diluted water repellent to the surface of the semiconductor substrate to form a water-repellent protective film on the surface of the convex pattern. The second supply unit comprises a buffer tank which stores the water repellent, a first supply line which supplies a purge gas to the buffer tank, a second supply line which supplies a diluent, a pump which sends off the water repellent within the buffer tank, a third supply line which supplies the water repellent sent off from the pump, and a mixing valve which mixes the diluent and the water repellent to produce the diluted water repellent.
摘要:
In one embodiment, an apparatus of treating a surface of a semiconductor substrate comprises a substrate holding and rotating unit, first to fourth supplying units, and a removing unit. A substrate holding and rotating unit holds a semiconductor substrate, having a convex pattern formed on its surface, and rotates the semiconductor substrate. A first supplying unit supplies a chemical onto the surface of the semiconductor substrate in order to clean the semiconductor substrate. A second supplying unit supplies pure water to the surface of the semiconductor substrate in order to rinse the semiconductor substrate. A third supplying unit supplies a water repellent agent to the surface of the semiconductor substrate in order to form a water repellent protective film onto the surface of the convex pattern. A fourth supplying unit supplies alcohol, which is diluted with pure water, or acid water to the surface of the semiconductor substrate in order to rinse the semiconductor substrate. A removing unit removes the water repellent protective film with the convex pattern being left.