Flow path chip and manufacturing method for flow path chip

What is claimed is: 1 . A flow path chip comprising: a first plate; a second plate joined to the first plate; and a porous body disposed between the first plate and the second plate, the flow path chip having a flow path formed by the first plate and the second plate, wherein the flow path includes a storage portion storing the porous body, the storage portion is defined by a first surface formed by part of a surface of the first plate and a second surface formed by part of a surface of the second plate, at least part of the first surface and at least part of the second surface are each a surface of an easily-deformable layer, and the porous body is sandwiched between the first plate and the second plate in a state that at least part of the easily-deformable layer is deformed. 2 . The flow path chip according to claim 1 , further comprising a coating layer disposed between the porous body and the easily-deformable layer and covering the porous body. 3 . The flow path chip according to claim 1 , wherein the easily-deformable layer is made of a modified substance formed through modification of at least one of the first plate and the second plate by a modifier. 4 . The flow path chip according to claim 3 , wherein the first plate and the second plate include a portion in which both the plates are joined to each other by an adhesive, and the adhesive is made of the modifier. 5 . The flow path chip according to claim 4 , wherein the first plate and the second plate are each made of a polyolefin-based material, and the adhesive contains an alkane. 6 . A manufacturing method for a flow path chip comprising a first plate having a first recess, a second plate having a second recess and joined to the first plate, and a porous body disposed between the first plate and the second plate, the flow path chip having a flow path formed by the first recess and the second recess, the flow path including a storage portion storing the porous body, the manufacturing method comprising: a first coating step of coating an adhesive to join the first plate and the second plate on at least one of a to-be-joined surface of the first plate to the second plate and a to-be-joined surface of the second plate to the first plate; a second coating step of coating the adhesive on at least part of a surface of the first recess and at least part of a surface of the second recess, and modifying at least part of the surface of the first recess and the surface of the second recess into a surface of an easily-deformable layer; a loading step of disposing a stored member including the porous body to be positioned in contact with at least one of the surface of the first recess and the surface of the second recess; and a joining step of joining the first plate and the second plate by contacting the to-be-joined surface of the first plate and the to-be-joined surface of the second plate with each other in an opposing relation, forming the flow path, which includes the storage portion storing the stored body, in a state that at least part of the easily-deformable layer is deformed by the stored member, and obtaining the flow path chip. 7 . The manufacturing method for the flow path chip according to claim 6 , wherein the first coating step and the second coating step are performed as one step. 8 . The manufacturing method for the flow path chip according to claim 6 , wherein characteristics of the formed easily-deformable layer are controlled by adjusting an amount of the adhesive per unit area coated on the at least part of the surface of the first recess and the surface of the second recess.