A packing box according to an embodiment includes a lower body including a bottom portion and a lower wall portion extending upward from the bottom portion; and an upper body including a cover portion and an upper wall portion extending downward from the cover portion defining an inner space with the lower body in case that combined with the lower body. The upper wall portion includes at least one groove in which an edge portion of a display device is inserted, and the cover portion includes at least one opening abutting with the at least one groove.

An integrated circuit (IC) device container/carrier includes a cartridge having a plurality of faces and a device housing slot recessed from one or more of the faces, where each slot is configured to house at least one IC device. The container further includes a lid rotatably coupled with the cartridge, the lid having a window recess configured to align with each device housing slot for accessing corresponding IC devices. At least one of the cartridge faces may be configured as a lock face without a corresponding device housing slot recessed from this lock face.

A tray feeding box includes a box body; a cover, arranged at a first end of the box body; and a bottom board, arranged at a second end of the box body away from the cover. The cover includes at least one first cover arranged at the first end of the box body. The at least one first cover is defined with a first opening. The box body is defined with a take-out gap communicated with the first opening.

A method of detection of a target nucleic acid is provided. The method performs a digital polymerase chain reaction (dPCR) that extends the functionality of the next-generation sequencer on Patterned Flow Cell based technology. The method further includes partitioning a sample into the patterned flow cell, detecting the target nucleic acid, and counting the target nucleic acid.

A safety cover box is used to prevent unauthorized access to an electrical device stored within to vulnerable users such as children or pets. The safety cover box prevents harmful accidents by restricting access to the electrical connections of the electrical device. To do so, the safety cover box may include a safety lid, a box body, and a safety lock mechanism. The box body is designed to completely enclose the electrical device so that all electrical connections are safely protected. The box body also enables the normal operation of the electrical device without obstructing the connection of external electrical devices to the electrical device stored within the box body. The safety lid is designed to seal the box body to prevent access to the electrical device stored within. The safety lock mechanism is designed so that only authorized users can remove the safety lid from the box body.

A carrier tray and a carrier tray assembly using the same are described. The carrier tray includes a carrying portion, a surrounding wall and at least one recessed structure. The carrying portion has a top surface and a bottom surface opposite to the top surface. The surrounding wall is disposed around the carrying portion. The recessed structure is recessed into the carrying portion. The recessed structure has an opening and a recessed space, and the recessed space is communicated with the outside through the opening. There is a first distance defined by the recessed space along a first direction, and there is a second distance defined by the opening along the first direction. The first distance is greater than the second distance.

A carrier tape, cover tape or static shielding bag for transportation of electronic components is constructed of polymers and carbon nanotubes being between 0.01% and 3% by weight. The carbon nanotubes may have any number of walls and any desired size of diameter dimension which is less than approximately 100 nm. The carrier tape, cover tape or bags including the carbon nanotubes have a static dissipative range measured between 1×10.sup.5 and 1×10.sup.12 Ω/sq and a light transmittance value of between 60% and 90%. The carrier tape, cover tape or bags including the carbon nanotubes reduce surface defects, high density entanglements and agglomerations. The static shielding bags including the carbon nanotubes may be formed as sheets which are manufactured into a desired size of bag.

A laminated sheet with a cover material, an adhesive cover tape, and an electronic component packaging container molded. A laminated sheet having a surface layer on both sides of a substrate layer, and the substrate layer includes 30 to 70 mass % of a component mentioned below, 70 to 30 mass % of a component mentioned below, and 0 to 30 mass % of a recycled material of the laminated sheet to the total mass of the substrate layer. The component is a rubber modified (meth)acrylic acid ester-vinyl aromatic hydrocarbon copolymer having a conjugated diene rubber component content of 5 to 15 mass %. The component is a vinyl aromatic hydrocarbon-conjugated diene block copolymer containing 15 to 30 mass % of monomeric units derived from conjugated dienes. The component is at least one polymer selected from the group consisting of a vinyl aromatic hydrocarbon polymer and a rubber modified vinyl aromatic hydrocarbon polymer.

According to an embodiment of the present invention, a protective film package includes a tray including a recess for seating an electronic device including a front plate exposing the display, a protective film, attached to the front plate of the electronic device, including a photo-curing layer, and a photo-curing support structure detachably coupled to the electronic device wherein the protective film is disposed at a predetermined position on the front plate when the tray on which the electronic device is seated and the protective film are aligned, and at least a portion of the edge of the protective film is pressed to the front plate by the photo-curing support structure when the photo-curing support structure is coupled with the electronic device on which the protective film is disposed. Various other embodiments are possible.

An example disclosed article may include a first layer and a second layer, where the first layer and the second layer may be bonded together within a peripheral region, the first layer and the second layer may be spaced apart within a cushion portion, the peripheral region may extend at least partially around the cushion portion, and the first layer may include cellulose fibers. The article may be used as a component of a packaging arrangement that may be entirely recycled using a paper recycling process. Examples also include, for example, related methods, systems, and assemblies.