Abstract

Composite materials, which include chitosan and catechol derivatives, are promising bioadhesives that are inspired by natural adhesive biomolecules in mussels. Although adhesives based on the composite of chitosan and catechol have been explored, these require multiple steps for preparation using chemicals such as a coupling reagent and purification. Here, novel adhesive composite materials with high adhesive properties are prepared by additive-free mixing of chitosan (CS) and 3,4-dihydroxybenzaldehyde (DB). The resulting CS-catechol (CS-DB) exhibits sufficient adhesion to glue pairs of wood plates and sections of pork skin together with adhesive strengths of 1.50–3.12 and 0.33–0.55 MPa, respectively. CS-DB retains its adhesive strength (0.09–0.13 MPa) even in wet environments. The results of shear tests of CS-DB samples prepared from CS with different average molecular weights of polymerization (MW) and degrees of deacetylation (DDA) indicate that the adhesion to the surface of wood plates is strongly affected by the MWand that adhesion to the surface of pork skin is more affected by DDA. In addition, CS-DB samples have significantly improved properties in abrasion resistance when used as a coating on wood plates in a Taber abrasion test. © 2025 The Authors. Published by American Chemical Society