Environmental control material holders can retain environmental control material within wafer carriers, allowing the environmental control material to protect wafers from moisture while also securing the environmental control material. The environmental control material holders may include a baseplate and tabs defining spaces to hold environmental control material, and can be configured to engage a handle of a wafer cassette. The environmental control material holders may retain one or more environmental control materials. Additionally, the environmental control material holders can be configured to also retain a humidity indicator.

A device is for drying disc-shaped substrates. The device has an elongated body, which tapers upwards to form a wedge having an angle α between two surfaces and an upper edge. The upper edge is suitable for holding the disc-shaped substrates. The two surfaces have more than one hole, each forming channels, which extend to a lower drainage part of the elongated body.

A turnaround mechanism of silicon wafers is provided. The turnaround mechanism includes a material frame, a supporting component, a second clamping component. The frame is provided with a material tank. The supporting component includes at least one first clamping component, and each of the at least one first clamping component is configured to clamp or release a support. The second clamping component includes two first rotating shafts disposed oppositely and two second clamping members, the two first rotating shafts are rotatably connected to the material frame, the two second clamping members are correspondingly disposed on the two first rotating shafts respectively, and each of the two second clamping members can rotate with a corresponding first rotating shaft, enabling the two second clamping members to move toward each other to clamp the silicon wafers to be separated.

According to one aspect of a technique the present disclosure, there is provided a processing apparatus including: an inner tube provided with a substrate accommodating region in which substrates are accommodated along an arrangement direction; an outer tube provided outside the inner tube; gas supply ports provided on a side wall of the inner tube along the arrangement direction; first exhaust ports provided on the side wall of the inner tube along the arrangement direction; a second exhaust port provided at a lower end portion of the outer tube; and a gas guide for controlling a flow of gas in an annular space between the inner tube and the outer tube and including a first fin near a lowermost first exhaust port among the first exhaust ports that is closest to the second exhaust port in a space between the lowermost first exhaust port and the second exhaust port.

A semiconductor wafer is as wide as the industry standard width A (presently 156 mm+/−1 mm) and is longer than the industry standard A by at least 1 mm and as much as the standard equipment can reasonably accommodate, presently approximately 3-20 mm and potentially longer, thus, gaining significant additional surface area for sunlight absorption. Modules may be composed of a plurality of such larger wafers. Such wafers can be processed in conventional processing equipment that has a wafer retaining portion of industry standard size A and a configuration that also accommodates a wafer with a perpendicular second edge longer than A by at least 1 and typically 3-20 mm. Wet bench carriers and transport and inspection stations can be so used.

A device is for drying disc-shaped substrates. The device has an elongated body, which tapers upwards to form a wedge having an angle α between two upper surfaces and an upper edge. The upper edge is configured to support a disc-shaped substrate. An upper surface of the two upper surfaces has a groove having an increasing groove depth with increasing distance from the upper edge.

A device is for drying disc-shaped substrates. The device has an elongated body having a top surface, a bottom surface, and a circumferential surface. The elongated body has a hole in the top surface forming a channel, which extends to a lower drainage part of the elongated body, and is chamfered having a chamfer depth and a chamfer angle forming an edge between the chamfer and the top surface and forming a conical recess suitable for resting a disc shaped substrate. The chamfer angle is more than 10° and less than 30°. The chamfer depth is more than 6 mm and less than 12 mm.

A wafer magazine is disposed on a load port of an oven chamber. The wafer magazine contains one or more wafer boats with semiconductor wafers. The wafer boats are supported in the wafer magazine by wall slots of the wafer magazine. Using a push bar, the wafer boats are transferred out of the wafer magazine and into a wafer magazine jig also disposed on the load port. The transferred one or more wafer boats are supported in the wafer magazine jig by wall slots of the wafer magazine jig. During transfer, the wafer boats are supported across a gap between the wafer magazine and the wafer magazine jig by wall slots of a boat bridge interposed between the wafer magazine and the wafer magazine jig. After the transfer and using a robot, the wafer boats in the wafer magazine jig are moved into the oven chamber.

Exemplary substrate support assemblies may include a platen characterized by a first surface configured to support a semiconductor substrate. The assemblies may include a first stem section coupled with a second surface of the platen opposite the first surface of the platen. The assemblies may include a second stem section coupled with the first stem section. The second stem section may include a housing and a rod holder disposed within the housing. The second stem section may include a connector seated within the rod holder at a first end of the connector. The second stem section may include a heater rod disposed within the first end of the connector and a heater extension rod coupled with the connector at a second end of the connector. The second stem section may include an RF rod and an RF strap coupling the RF rod with an RF extension rod.

A method of heat-treating a silicon wafer using a lateral heat treatment furnace that can improve the product yield by restricting reduction in the lifetime value of silicon wafers placed in the vicinity of dummy blocks placed to equalize the temperature of the region where the wafers are placed. In a method of heat-treating a silicon wafer using a lateral heat treatment furnace, a boat is placed in a hollow cylindrical furnace core tube, and on the boat, at least one of a first additional block between a first dummy block and a wafer group and a second additional block between a second dummy block and the wafer group is placed.