Abstract: To provide an information writable film that is chemical and abrasion resistance, and is suitable for high contrast white laser marking. The information writable film comprises a writable film layer 110 and a reading assistance layer 120. The writable film layer 110 is formed into a film shape by thinly stretching a material, which material is a mixture of a color former composition for coloring white when receiving the particular wavelength laser beam by changing its physical and chemical characteristic and a transparent plastic composition. The reading assistance layer 120 is provided enhancing the contrast ratio. The writable film layer 110 is provided with laser coloring properties and chemical and abrasion resistance. During writing, an identification code is written by laser by coloring the color former in the writable film layer 110. During reading, the contrast ratio is enhanced by superimposing the color of the reading assistance layer 120.

Abstract: A sample storage, in which barcodes and two-dimensional codes written on the outer surface of the sample storage can be read correctly without false recognition. A storage tube 110 is made of transparent material, comprising a top opening. An externally equipped opaque writable element 120 is assembled outside by covering storage tube 110 throughout from the bottom surface to the side surface. An externally equipped opaque writable element 120 is to be used as a medium to which coded information that can be read by means of optical reading is written. The top opening of the storage container 110 is sealed by the lid element screwed into or fitted into the externally equipped opaque writable element 120 not to the storage container 110. At least one window 125 is provided, which enables a sample 200 contained to be observed, with the externally equipped opaque writable element 120 assembled outside.

Abstract: Sample storage, in which barcodes and two-dimensional codes printed on the outer surface of the sample storage can be read correctly. A storage tube 110 is transparent, comprising a top opening. An opaque writable outer element 120 covers storage tube 110 throughout from the bottom surface to the side surface. An opaque writable outer element 120 is a medium on which coded information that can be read by optical reading is written. The opaque writable outer element 120 is pushed in and irreversibly fixed to the storage tube 110 by a locking mechanism. At least one window 125 is provided, which enables a sample 200 contained to be observed, with the opaque writable outer element 120 installed outside. Accordingly, coded information written on the opaque writable outer element 120 can be read, and sample 200 observed through the window 125.

Abstract: A lid element array and a micro tube array set for sealing the opening of each micro tube in an array quickly at low cost. A lid element array 100 comprises a lid element sheet 120 comprising a plurality of lid element 121 arrayed corresponding to the number and the arrangement of a plurality of said micro tubes 210; a release sheet 140; a first adhesive 110 applied to each said lid element in said lid element sheet 120; a second adhesive 130 applied between said lid element sheet 120 and said release sheet 140; wherein, each said lid element in said lid element sheet is supported by said release sheet with a cut-line cut around the edge of each said lid element for separation from said lid element sheet, each said lid element moves to a corresponding opening of each said micro tube and seals the same by pressing said lid element to the surface of said micro tube array for facing the surface applied with said first adhesive and the surface of said micro tube array.

Abstract: A lid element array and a micro tube array set for sealing the opening of each micro tube in an array quickly at low cost. A lid element array 100 comprises a lid element sheet 120 comprising a plurality of lid element 121 arrayed corresponding to the number and the arrangement of a plurality of said micro tubes 210; a release sheet 140; a first adhesive 110 applied to each said lid element in said lid element sheet 120; a second adhesive 130 applied between said lid element sheet 120 and said release sheet 140; wherein, each said lid element in said lid element sheet is supported by said release sheet with a cut-line cut around the edge of each said lid element for separation from said lid element sheet, each said lid element moves to a corresponding opening of each said micro tube and seals the same by pressing said lid element to the surface of said micro tube array for facing the surface applied with said first adhesive and the surface of said micro tube array.

Abstract: Provide a sample storage, in which barcodes and two-dimensional codes printed on the outer surface of the sample storage can be read correctly without false recognition. A storage tube 110 is made of transparent material, comprising a top opening. An opaque writable outer element 120 is installed outside by covering storage tube 110 throughout from the bottom surface to the side surface. An opaque writable outer element 120 is to be used as a medium on which coded information that can be read by optical lv reading is written. The opaque writable outer element 120 is pushed in and irreversibly fixed to the storage tube 110 by a locking mechanism. At least one window 125 is provided, which enables a sample 200 contained to be observed, with the opaque writable outer element 120 installed outside. Accordingly, it enables coded information written on the opaque writable outer element 120 to be read, and sample 200 contained to be observed through the window 125.

Abstract: A sample storage, in which barcodes and two-dimensional codes written on the outer surface of the sample storage can be read correctly without false recognition. A storage tube 110 is made of transparent material, comprising a top opening. An externally equipped opaque writable element 120 is assembled outside by covering storage tube 110 throughout from the bottom surface to the side surface. An externally equipped opaque writable element 120 is to be used as a medium to which coded information that can be read by means of optical reading is written. The top opening of the storage container 110 is sealed by the lid element screwed into or fitted into the externally equipped opaque writable element 120 not to the storage container 110. At least one window 125 is provided, which enables a sample 200 contained to be observed, with the externally equipped opaque writable element 120 assembled outside.