▎ 摘 要
NOVELTY - The method involves arranging a first reactant on a first side of a two-dimensional material that includes defects. A second reactant is arranged on second side of material such that first reactant and second reactant undergo a polymerization reaction and form polymer regions which fill the defects. The polymer regions are adhered to a support structure that comprises covalent bonds formation between regions and structure. The adhered polymer handling region (440) formed along a portion of an edge of two-dimensional material which combines graphite material (400) to structure. USE - Method for repairing defects in graphene and two-dimensional materials for membrane assembly (claimed) used in context of disease treatment such as in the treatment of diabetes. ADVANTAGE - The graphene membrane assembly thus exhibits improved performance and service life when compared to a graphene membrane without polymer adhesion regions arranged on support structures. The polymer handling region allows the repaired graphene material that manipulates without directly contacting the graphene material thus reduces the opportunity for defects to form in the material after the repair process. The holes can be formed in the graphene material in a pattern thus maintains an area of the material sufficient which allow the desired performance of the material. DETAILED DESCRIPTION - INDEPENDENT CLAIMS are included for the following: (1) a membrane assembly for repairing defects in graphene and two-dimensional materials; and (2) a membrane for repairing defects in graphene and two-dimensional materials. DESCRIPTION OF DRAWING(S) - The drawing shows a top down view of a graphene material that has undergone interfacial polymerization to repair defects and form a polymer handling region. Holes (312) Graphite material (400) Pores (430) Polymer handling region (440)