- [1]Carbon–Iodine Polydiacetylene Nanofibers for Image-Guided Radiotherapy and Tumor-Microenvironment-Enhanced Radiosensitization.ACS Nano,2024,(11):8325–8336
- [2]Targeted Computed Tomography Visualization and Healing of Inflammatory Bowel Disease by Orally Delivered Bacterial-Flagella-Inspired Polydiiododiacetylene Nanofibers.ACS Nano,2023,3873−3888
- [3]Reactive oxygen species-responsive and Raman-traceable hydrogel combining photodynamic and immune therapy for postsurgical cancer treatment.Nature Communications,2022,
- [4]Near infrared-activatable biomimetic nanogels enabling deep tumor drug penetration inhibit orthotopic glioblastoma.nature communications,2022,
- [5]Continuously Multiplexed Ultrastrong Raman Probes by Precise Isotopic Polymer Backbone Doping for Multidimensional Information Storage and Encryption..Nano letters,2022,
- [6]Polydiacetylene-based poly-ion complex enabling aggregation-induced emission and photodynamic therapy dual turn-on for on-demand pathogenic bacteria elimination.Sci. China: Chem,2022,1782–1790
- [7]Complete Degradation of a Conjugated Polymer into Green Upcycling Products by Sunlight in Air.J. Am. Chem. Soc.,2021,(27):10054–10058
- [8]Luminescent AIE Dots for Anticancer Photodynamic Therapy.Front. Chem,2021,
- [9]Polydiacetylene-based ultrastrong bioorthogonal Raman probes for targeted live-cell Raman imaging.Nature Communications,2020,
- [10]pH-Regulated Reversible Transition Between Polyion Complexes (PIC) and Hydrogen-Bonding Complexes (HBC) with Tunable Aggregation-Induced Emission.ACS Applied Materials & Interfaces,2015,(6):3693–3702