Preparation of 2D Polyaniline/MoO 3- x Superlattice Nanosheets via Intercalation-Induced Morphological Transformation for Efficient Chemodynamic Therapy.

Organic intercalation of layered nanomaterials is an attractive strategy to fabricate organic/inorganic superlattices for a wide range of promising applications. However, the synthesis of 2D organic/inorganic superlattice nanosheets remains a big challenge. Herein, the preparation of 2D polyaniline/MoO (PANI/MoO ) superlattice nanosheets via intercalation-induced morphological transformation from MoO  nanobelts, as efficient Fenton-like reagents for chemodynamic therapy (CDT), is reported. Micrometer-long MoO  nanobelts are co-intercalated with Na /H O followed by the guest exchange with aniline monomer for in situ polymerization to obtain PANI/MoO nanosheets. Intriguingly, the PANI intercalation can induce the morphological transformation from long MoO  nanobelts to 2D PANI/MoO nanosheets along with the partial reduction of Mo to Mo , and generation of rich oxygen vacancies. More importantly, thanks to the PANI intercalation-induced activation, the PANI/MoO nanosheets exhibit excellent Fenton-like catalytic activity for generation of hydroxyl radical (·OH) by decomposing H O  compared with the MoO  nanobelts. It is speculated that the good conductivity of PANI can facilitate electron transport during the Fenton-like reaction, thereby enhancing the efficiency of CDT. Thus, the polyvinylpyrrolidone-modified PANI/MoO nanosheets can function as Fenton-like reagents for highly efficient CDT to kill cancer cells and eradicate tumors.