The aim of this project is to use the excellent optical properties of gold nanorods to achieve efficient photothermal ablation of tumors, and to activate immune cells in the tumor microenvironment by modifying immune stimulants, so as to achieve immunotherapy of tumors.
This paper aims to develop a multi-functional tumor diagnosis and treatment platform based on DNA nanostructure for early diagnosis and combined treatment of tumors. Using these advantages of DNA nanostructure, a multifunctional tumor diagnosis and treatment platform was designed.
The aim of this project is to analyze gene expression regulatory networks in the early stages of human embryo development (from fertilized egg to blastocyst stage) and explore the interactions between different cell types and the functions of transcription factors using single-cell sequencing technology.
The purpose of this study is to design and prepare new polymer nanocomposites as drug carriers to achieve controlled release of drugs, study their drug release behavior and biocompatibility in vivo and in vitro, and provide a new drug delivery system for the biomedical field.