Disclosed is droplet ejecting apparatus that ejects droplets of a functional liquid onto a workpiece to draw a pattern. The droplet ejecting apparatus includes: a workpiece table; a droplet ejecting head configured to eject the droplets onto the workpiece placed on the workpiece table; a movement mechanism configured to relatively move the workpiece table and the droplet ejecting head in a main scanning direction and a sub-scanning direction; and a control unit configured to: detect a position of the workpiece or a position of the workpiece table while relatively moving the workpiece table and the droplet ejecting head along a plurality of scanning lines extending in the main scanning direction and set side by side in the sub-scanning direction; and create, based on a detection result, a correction table that indicates a correlation between a position of the movement mechanism and a positional correction amount of the workpiece table.

A method of manufacturing a formed body for an electrode includes: preparing an electrode material; placing a shape retaining member having an rectangular tubular shape with one opening portion L thereof facing down, and supplying the electrode material into the shape retaining member from the other opening portion M thereof; and discharging the electrode material onto a support from the opening portion L while relatively moving the opening portion L and the support, to form a film, a bulk density D.sub.1 of the electrode material in the first step and a bulk density D.sub.2 of the electrode material at the opening portion L satisfying a relationship of D.sub.2/D.sub.1=1.1 to 30, and a width T.sub.1 of the opening portion L in a short side direction and a distance T.sub.2 between the end portion X of the opening portion L and the support satisfying a relationship of width T.sub.1>distance T.sub.2.

The corrosion laminate system (CLS) comprises cleaning the produced water (PW) storage tank through debris removal, wet blasting the tank, and drying the tank. The nozzle is inserted and sealed, leaving only the fiberglass portion of the nozzle in contact with the interior of the PW storage tank. The product for sealing the PW storage tank is then applied to the entire interior surface of the tank, the product is cured, and the PW storage tank can be used for storage.

The corrosion laminate system (CLS) comprises cleaning the produced water (PW) storage tank through debris removal, wet blasting the tank, and drying the tank. The nozzle is inserted and sealed, leaving only the fiberglass portion of the nozzle in contact with the interior of the PW storage tank. The product for sealing the PW storage tank is then applied to the entire interior surface of the tank, the product is cured, and the PW storage tank can be used for storage.

An object is to obtain a composition capable of: forming a uniform film even by spray coating or even when the composition is applied in the form of ink for inkjet printing; and preventing light emission from a portion other than an ITO electrode surface when the film is mounted on an organic EL device and light is emitted from the device. A conductive polymer composition contains: a composite containing a π-conjugated polymer (A) and a polymer (B) shown by a general formula (1); H.sub.2O (D) for dispersing the composite; a water-soluble organic solvent (C); and a compound (E) shown by a general formula (2). The electric conductivity of a film with a thickness of 20 to 200 nm formed from the conductive polymer composition is less than 1.00E-05 S/cm.

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The invention relates to a method of manufacturing technical radio frequency functional structures comprising the steps of providing a base body determining the shape of the functional structure and applying an electrically conductive layer to the shape-determining base body by means of wetting the base body with a dispersion containing microparticles and/or nanoparticles.

The invention relates to a method of manufacturing technical radio frequency functional structures comprising the steps of providing a base body determining the shape of the functional structure and applying an electrically conductive layer to the shape-determining base body by means of wetting the base body with a dispersion containing microparticles and/or nanoparticles.

An equipment front end module (EFEM) having walls, a first wall including one or more load ports and an EFEM chamber formed between the walls. The EFEM further includes an upper plenum at a top of the EFEM and including an opening into the EFEM chamber. Ducts provide a return gas flow path enabling recirculation of gas from the EFEM chamber to the upper plenum, the ducts proximate the one or more load ports. The one or more ducts includes flow elements configured to cause a low pressure condition at a location of the one or more load ports.

An equipment front end module (EFEM) having walls, a first wall including one or more load ports and an EFEM chamber formed between the walls. The EFEM further includes an upper plenum at a top of the EFEM and including an opening into the EFEM chamber. Ducts provide a return gas flow path enabling recirculation of gas from the EFEM chamber to the upper plenum, the ducts proximate the one or more load ports. The one or more ducts includes flow elements configured to cause a low pressure condition at a location of the one or more load ports.

The present invention relates to a water-, oil- and grease-resistant multilayer coating for a paper-based substrate comprising a water-based inner primer coating, an intermediate polymeric extrusion coating, and a water-based top barrier coating, wherein a surface of the paper-based substrate coated therewith has water, oil and grease barrier properties, and wherein the paper-based substrate coated therewith is repulpable and recyclable.