The present disclosure provides a load port device, a gas gate and a gas-providing method. The load port device includes a gas-providing nozzle and the gas gate. The gas-providing nozzle is used for providing gas to a wafer container. The gas gate includes a plurality of gas inlet ports, a gas-providing port and a controller. Each gas inlet port connects to a gas source. The gas-providing port connects to the gas-providing nozzle. The controller is configured to: select one of the plurality of gas inlet ports; and connect the selected gas inlet port to the gas-providing port.

Provided is a quick-release valve including: a quick-release member having a collar detachably coupled to a bottom opening of a base; and a sleeve having a flow passage for allowing a gas to enter or exit a substrate container. The collar has a pair of ear portions extending outward therefrom along a diameter direction and a handle extending outward therefrom along a radius direction. The ear portions are at a height substantially different from the handle.

Electronic device processing systems including an equipment front end module (EFEM) with at least one side storage pod are described. The side storage pod has a chamber including a storage container. The storage container includes at least a top substrate holder and a bottom substrate holder. In some embodiments, an exhaust port is located at a midpoint between the top substrate holder and the bottom substrate holder. A gas flow component is configured to provide a gas flow between the EFEM body and the storage container. A gas flow temperature component is configured to modify the temperature of the gas flow to a particular temperature.

An equipment front end module (EFEM) includes sidewalls forming an EFEM chamber configured to receive inert gas from an inert gas supply. The sidewalls include a first sidewall configured to attach to a panel first side of a panel. The panel forms a panel opening extending between the panel first side and a panel second side. The panel second side is configured to attach to a side storage pod. The EFEM further includes a robot disposed in the EFEM chamber. The robot is configured to transfer substrates from the EFEM chamber into the side storage pod via the panel opening. An exhaust conduit is coupled to the side storage pod to exhaust gas from the side storage pod to an exterior of the side storage pod.

Electronic device processing systems including an equipment front end module (EFEM) with a side storage pod are described. The EFEM includes an EFEM chamber and a recirculation duct. The side storage pod is fluidly coupled to the recirculation duct. The side storage pod includes an interior chamber and a side storage container disposed within the interior chamber. The side storage container is configured to receive one or more substrates from the EFEM chamber. The electronic device processing system further includes an environmental control system. The environmental control system is configured to circulate a purge gas between the EFEM chamber and the side storage pod via the recirculation duct.

The present disclosure relates to systems and methods for reducing the humidity within a FOUP (Front Opening Unified Pod) when loaded on an EFEM (Equipment Front End Module) for transfer of a semiconductor wafer substrate during fabrication processes. A deflector of specified structure is placed inside the EFEM above the load port of the FOUP. The deflector directs airflow in the EFEM away from the load port. The deflector includes a body with a plurality of apertures in the deflector body, and with a sloped front surface. Thus, the degree of penetration of high-humidity air from the EFEM into the FOUP is reduced.

A substrate storage container comprises a container body capable of containing a plurality of substrates, and an air supply member capable of supplying gas from outside of the container body to an internal space, wherein for the substrate storage container the container body is formed in a front open box and the air supply member is attached to the bottom surface, and wherein a functional unit that changes the environment of the internal space to different states are connected with the air supply member so as to be able to be exchanged.

Provided are methods and systems for cleaning various semiconductor substrate storage articles, in particular, FOUP doors. The FOUP doors and other similar articles often have openings that may get contaminated with cleaning liquids if not covered. The described cleaning system includes contact points for engaging the article and covering these openings. The contact points may be also used for supporting the article and for pressurizing the openings in the article with a gas. The gas may be supplied through one or more contact points. It prevents liquids from getting into the openings if even the openings are not completely sealed. The pressurization may be maintained through the entire wet portion of the cleaning process. The article may be rotated within the cleaning system while cleaning and/or other liquids or gases are dispensed through a set of spraying nozzles. Spraying nozzles may move to enhance cleaning of the article.

A storage shelf includes: a main frame; a plurality of shelf modules each having a base plate detachably provided on the main frame, and a supply nozzle provided on the base plate; a main pipe through which purge gas supplied from a supply source flows, and a first branch provided in the main pipe and branches a flow path from the main pipe, in which the shelf modules are each provided with a mass flow controller configured to adjust the flow rate of the purge gas supplied to the supply nozzle, the first branch is connected to a module pipe via an open/close valve that opens/closes the flow path, and the mass flow controller is connected to the module pipe.

A platform is of a side storage pod. The platform includes an upper surface and kinematic pins extending from the upper surface within a chamber of the side storage pod to engage a lower surface of a side storage container in the chamber to level the side storage container in the chamber.