▎ 摘　　要

Controlled delivery of dual chemical drugs may increase the efficiency of chemotherapy. In this work, doxorubicin (DOX) was bound to adamantanecarboxylic acid(AD-COOH) through covalent linkage to form AD-DOX, while graphene oxide (GO) was modified by ethylenediamino-beta-cyclodextrin (EDA-CD) to form graphene oxide-beta-cyclodextrin (GO-CD), then GO-CD was assembled with as-produced AD-DOX via host-guest interaction. In contrast to the conjugation of DOX via covalent linkage, topotecan (TPT) was loaded onto GO through p-p stacking interaction. It was found that TPT/GO-CD/AD-DOX nanoparticles synchronised the delivery of DOX and TPT, and pH value played a critical role in determining the release profiles of dual drugs. Moreover, in vitro cellular investigations proved that TPT/GO-CD/AD-DOX nanoparticles were superior to free drugs and single-drug loaded nanoparticles in inhibiting the growth of HeLa cells. As a kind of injectable biomaterials, this controlled drug delivery device offers a solution to simultaneous delivery of dual chemical drugs in cancer lesion positions. Authors expect that this platform can be exploited for controlled delivery of various drug combinations for combination chemotherapy.