Titanium Carbide MXene Quantum Dots-Modified Hydroxyapatite Hollow Microspheres as pH/Near-Infrared Dual-Response Drug Carriers
Miao Liu, Xiaosen Pan, Yuanjing Gan, Meng Gao, Xinran Li, Zhen Liu, Xiaojun Ma, Mengru Geng, Xiangqi Meng, Ning Ma, Jie Li
Abstract
Titanium carbide MXene quantum dots (MQDs) possess intrinsic regulatory properties and selective toxicity to cancer cells. Here, MDQs were selected for the modification of hydroxyapatite (HA) microspheres, and MXene quantum dots-modified hydroxyapatite (MQDs-HA) hollow microspheres with controllable shapes and sizes were prepared as bone drug carriers. The results show that the prepared MQDs-HA hollow microspheres had a large BET surface area (231.2 m 2 /g), good fluorescence, and low toxicity. In addition, MQDs-HA showed a mild storage–release behavior and good responsiveness of pH and near-infrared (NIR). Thus, the MQDs-HA hollow microspheres have broad application prospects in the field of drug delivery and photothermal therapy.