Composite of enzyme and fiber matrix with three-dimensional structure, method for producing the same and use thereof

Abstract

Disclosed is a composite of enzyme and fiber matrix with three-dimensional structure. The composite of enzyme and fiber matrix with three-dimensional structure includes a significantly large amount of an enzyme loaded in and immobilized in/onto a matrix when compared to conventional composites. In addition, the immobilized enzyme is prevented from leaching from the matrix when an external impact is applied to the composite of enzyme and fiber matrix with three-dimensional structure. Therefore, the stability of the composite of enzyme and fiber matrix with three-dimensional structure of the present invention is maintained even after a long period passes since a remarkably great amount of enzymes compared with a known composite can be supported and immobilized to a matrix, and the immobilized enzyme is not easily released by an external impact. In addition, it is possible to stably immobilize a great amount of enzymes even if a functional group covalently bonding to enzymes is hardly present on the surface of fiber. Therefore, it is possible to remarkably improve performance by using the composite of enzyme and fiber matrix with three-dimensional structure of the present invention in a biosensor, a bio-fuel cell and the like, compared with the case using a known matrix composite.