Methods of installing a purge fluid conditioning element into an interior space of a semiconductor substrate carrying container are described. The purge fluid conditioning element is installed from outside the semiconductor substrate carrying container through a port formed in one of the walls of the container, where the port is sized to permit the purge fluid conditioning element to be inserted into the interior space of the container by installing the purge fluid conditioning element through the port. The wall may be a bottom wall of the container or another wall of the container. The described methods eliminate the need to install the purge fluid conditioning element from the inside of the container which can cause human contamination of the interior environment of the container.

A semiconductor processing apparatus including: a substrate comprising a polymer material layer; and a conductive polymer coating layer that coats at least a portion of the polymer material layer of the substrate, wherein the conductive polymer coating layer comprises conjugated polymers, wherein the conductive polymer coating layer has a total extractable metals less than 400 ng/g, and wherein the conductive polymer coating layer is configured to discharge electrostatic buildup in the semiconductor processing apparatus when connected to a semiconductor processing system.

A ring spacer interposed between plate-shaped objects above and below in a container for storing and transporting the plate-shaped objects when a plurality of plate-shaped objects is stored in an up-and-down direction includes a ring-shaped abutment portion and a control portion. An upper face and a lower face in the abutment portion have an approximately flat shape and the upper face in the abutment portion abuts against a lower face of a peripheral edge portion of the plate-shaped object. The lower face in the abutment portion abuts against an upper face of the peripheral edge portion of the plate-shaped object. The control portion includes a control portion upper face positioned to protrude further upward than the support face of the abutment portion and a control portion lower face positioned at an appropriate location in a thickness direction of the abutment portion.

A sheet affixing apparatus has a frame stocker for housing a plurality of annular frames stacked therein. The frame stocker includes a support stage for supporting the stack of annular frames placed thereon, a plurality of abutting members for positioning the annular frames in a predetermined position on the support stage, the abutting members being erected around the support stage, an openable and closable door for separating an area that houses the support stage and the abutting members therein, the openable and closable door being disposed laterally of the support stage, a sensor for detecting when the openable and closable door is closed, an entry member movable into and out of the recesses of the annular frames placed on the support stage, in ganged relation to opening and closing movement of the openable and closable door, and a control unit.

A substrate treating apparatus including an unloading order changing unit. The unloading order changing unit reverses an order, in regard to unloading of substrates in a carrier from the top, between a poor inclined substrate and a substrate at least immediately above the poor inclined substrate when the poor inclined substrate is present whose inclination is determined larger than a pre-set threshold by a poor inclination determining unit. That is, the order is reversed such that the poor inclined substrate whose surface may be possibly be scratched with a hand is unloaded prior to the substrate immediately above the poor inclined substrate. Accordingly, this inhibits damages on the substrate caused by scratching a substrate surface with the hand of a substrate transport mechanism.

A front opening wafer container with a forward and rearward sets of stacked V-shaped wafer edge receiving portions, the rearward set part of a wafer shelf component and comprising a thin film of PBT preformed and overmolded with a polycarbonate. The sets of stacked V-shaped wafer edge receiving portions providing between-shelf seating positions above on-shelf seating positions. The PBT providing a low friction sliding engagement surface for the wafer edges thereby providing uniform and consistent dropping of wafers from the between shelf position to the on-shelf position when the door of the wafer container is removed.

A substrate container includes a casing, a rack, a lid, a lid holder, and a substrate separating mechanism. The casing has on its front face an opening. The substrate separating mechanism has a contact part that directly contacts substrates. The contact part is movable relative to the lid holder. The lid moves forward to the opening, and the contact part moves backward relative to the lid holder, whereby the lid holder holds ends of the substrates. The lid moves backward from the opening, and the contact part moves forward to the lid holder, whereby the substrate separating mechanism separates the substrates from the lid holder.

A purge configurable wafer shipper. The container includes an enclosure portion with an open side or bottom, a door to sealing close the open side or bottom. One of the door and the container portion includes an opening formed in the enclosure to provide a fluid passageway from an interior of the wafer shipper to an exterior region. The opening may include a module receiving structure that defines the fluid passageway. A sealing member is included for insertion into the module receiving structure. The sealing member has a body portion including a support flange positioned proximate a lower portion of the body portion, a circumferential groove in the exterior surface of the body portion, and an O-ring positioned at least partially within the circumferential groove.

The disclosure provides an adjustable device including plates and at least two adjustable modules connect with two adjacent of the plates. The adjustable module can stretch or shrink to change a distance between plates. The disclosure also provides an adjustable storage box including an upper cover and a lower cover. A storage space is formed by the upper cover and the lower cover and for the accommodating of the adjustable device. When the upper cover moves upward relative to the lower cover, the adjustable modules changes from a compression state to a stretch state and increase a distance between plates. Whereby, it is easy to pick and place object when a distance of two adjacent plates increases. The overall volume of the adjustable device is reduced when a distance of two adjacent plates decrease, thereby saving the working space.

A dual containment pod having an outer pod and an inner pod that provides support structure and environmental control means. The inner pod includes a base having a flat, polished surface with protrusions upon which the reticle seats and providing a gap between the reticle and the polished surface. The gap separates the reticle from the flat, polished surface of the base and is dimensioned to inhibit migration of particles into the gap, thereby preventing contamination of sensitive surfaces of the wafer or reticle. The top cover of the inner pod seats on the polished surface proximate a periphery of the base. Moveable reticle engaging pins on the top cover of the inner pod are engaged by the top cover of the outer container when the inner pod is assembled inside the outer pod providing reticle restraint.