Specimen collection tip, specimen preparation container and specimen preparation kit

The invention claimed is: 1. A specimen collection tip comprising: a peripheral wall formed in a generally rectangular plate shape and having a laminated structure including a base material layer disposed between two film layers; a specimen holding region having a predetermined volume and formed by a groove part that penetrates the base material layer in a thickness direction; a support part at a proximal end portion of the peripheral wall; and wherein the groove part opens to a distal end face and at least one side face of the base material layer to form a specimen collection hole and at least one air vent hole, respectively, placing the specimen holding region in communication with a surface of the specimen collection tip in a distal end portion extending from the support part; wherein an opening area of the at least one air vent hole to the surface is larger than an opening area of the specimen collection hole to the surface; wherein the at least one air vent hole is disposed between the specimen collection hole and the support part in a lengthwise direction; wherein the specimen holding region expands widthwise along an entire length of the specimen holding region from the specimen collection hole to the at least one air vent hole; and wherein the specimen holding region is configured to suck up a specimen into the specimen holding region through the specimen collection hole by capillary phenomenon when the distal end face of the base material layer is brought into contact with the specimen. 2. The specimen collection tip according to claim 1 , wherein at least a portion of the surface of the specimen collection tip is superhydrophobic. 3. The specimen collection tip according to claim 1 , wherein the specimen holding region is formed as a flat-shaped space. 4. The specimen collection tip according to claim 1 , wherein the at least one air vent hole comprises a plurality of air vent holes formed in portions that are opposed to each other in a respective side faces of the base material layer of the peripheral wall. 5. The specimen collection tip according to claim 1 , wherein an inner face of the specimen holding region is hydrophilic. 6. The specimen collection tip according to claim 1 , wherein the peripheral wall of the specimen holding region is formed of a transparent resin material. 7. The specimen collection tip according to claim 1 , further comprising a filter provided in the opening part of the at least one air vent hole to allow gas to pass therethrough and make it impossible for liquid to pass therethrough. 8. The specimen collection tip according to claim 1 , wherein the specimen holding region comprises a hexagonal shape. 9. A specimen preparation container with a cap comprising the specimen collection tip according to claim 1 , the specimen collection tip being attached to the cap at the support part. 10. A specimen preparation kit comprising: the specimen collection tip according to claim 1 ; and a specimen preparation container with a cap, an inside of the container being filled with a predetermined amount of a specimen diluting solution. 11. A specimen collection tip comprising: a peripheral wall formed in a generally rectangular plate shape and having a laminated structure including a base material layer disposed between two film layers; a specimen holding region having a predetermined volume and formed by a groove part that penetrates the base material layer in a thickness direction; a support part at a proximal end portion of the peripheral wall; and wherein the groove part opens to a distal end face and at least one side face of the base material layer to form a specimen collection hole and at least one air vent hole, respectively, placing the specimen holding region in communication with a surface of the specimen collection tip in a distal end portion extending from the support part; wherein an opening area of the at least one air vent hole to the surface is larger than an opening area of the specimen collection hole to the surface; wherein the at least one air vent hole is disposed between the specimen collection hole and the support part in a lengthwise direction; wherein the specimen holding region expands widthwise along an entire length of the specimen holding region from the specimen collection hole to the at least one air vent hole; wherein the specimen holding region is configured to suck up a specimen into the specimen holding region through the specimen collection hole by capillary phenomenon when the distal end face of the base material layer is brought into contact with the specimen; wherein the at least one air vent hole comprises a plurality of air vent holes formed in portions that are opposed to each other in respective side faces of the base material layer of the peripheral wall; wherein the specimen holding region comprises a hexagonal shape; and wherein the specimen collection hole is formed by a first side of the hexagonal shape and the plurality of air vent holes are formed by second and third sides of the hexagonal shape, respectively. 12. A specimen collection tip with an elongated shape comprising: a laminated structure of resin films having an elongated shape in which a length of the laminated structure in an elongated direction is greater than a width of the laminated structure in a width direction, a support part on a proximal end side of the laminated structure in the elongated direction, an open inside region formed between laminated faces of the laminated structure on a distal end side of the laminated structure in the elongated direction, a specimen collection hole constituted by an opening on the distal end side of the laminated structure in the elongated direction, a specimen holding region having a predetermined volume formed by a spreading of the inside region in the width direction from the specimen collection hole toward the proximal end side of the laminated structure in the elongated direction so that the specimen holding region is enlarged in a plan view, an air vent hole formed where a proximal end side of the specimen holding region extends to a peripheral end face of the laminated structure in the width direction, and wherein the specimen holding region expands widthwise along an entire length of the specimen holding region from the specimen collection hole to the air vent hole, and wherein the specimen holding region is configured to suck up a specimen into the specimen holding region through the specimen collection hole by capillary phenomenon when the distal end side of the laminated structure in the elongated direction is brought into contact with the specimen.