2025年其他文章

1. Sharma, P., Bouffard, J., and Kim, Y.. A reflection on ‘Aggregation-induced emission enhancement of a meso-trifluoromethyl BODIPY via J-aggregation’: from fundamental discovery to versatile sensing platforms. 2025.

2. Liao, Y., Li, B., Zhao, Z., null, n., Tan, Q., null, n., null, n., Yin, J., Shan, H., null, n., and Huang, X.. Erratum: Correction to "Targeted Theranostics for Tuberculosis: A Rifampicin-Loaded Aggregation-Induced Emission Carrier for Granulomas Tracking and Anti-Infection" (ACS nano (2020) 14 7 DOI: 10.1021/acsnano.0c00586.). 2025.

3. Xu, L.. Corrigendum to “Renewable resource of aggregation-induced emission materials: From photophysical mechanisms to biomedical applications” [Coord. Chem. Rev. 506 (2024) 215701] (Coordination Chemistry Reviews (2024) 506, (S001085452400047X), (10.1016/j.ccr.2024.215701)). 2025.

4. Xu, L.. Corrigendum to “Unconventional aggregation-induced emission property with clusteroluminescence mechanism from natural compounds and applications” [Coord. Chem. Rev. 519 (2024) 216094] (Coordination Chemistry Reviews (2024) 519, (S0010854524004405), (10.1016/j.ccr.2024.216094)). 2025.

5. Skorik, Y.A.. Special Issue “Biopolymers in Drug and Gene Delivery Systems 3.0”. 2025.

6. Sun, F., Li, N., Zhao, Z., Zhang, Z., Zhou, Z., Xu, X., Liu, C., Xiong, Q., Tang, J., Yang, C., Yu, S., Zhang, Y., Tang, B.Z., and Deng, Y.. From Passive Monitoring to Active Control: Aggregation-induced Emission-driven Antimicrobial Nanotechnology for Long-duration Spaceflight. 2025.

7. Zhu, D., and Bryce, M.R.. A New Strategy Enabling Combined Fluorescence Imaging of Individual Tuberculous Granulomas and Precise Photothermal Therapy of Tuberculosis With Lesion- and Pathogen-Targeting Capabilities of the Nanoparticles. 2025.

8. Unknown Authors. Corrigendum to: Quantitative analysis of disaggregation properties of aggregation-induced emission luminogens (AIEgens) and off-the-shelf dyes (Bulletin of the Korean Chemical Society, (2025), 46, 2, (116-121), 10.1002/bkcs.12933). 2025.

9. Li, C., Yan, J., Yin, B., Zhang, Q., Huang, Y., Chen, J., Wang, F., Cheung, J.C.W., Yang, M., and Wong, S.H.D.. Correction to “Scaffold-Free Efficient Light-Harvesting Nanoparticles Based on One-Pot Self-Assembly of Donor–Acceptor Aggregation-Induced Emission Luminogens”. 2025.

10. El-Sedik, M.S., Mohamed, M.B.I., Abdel-Aziz, M.S., and Aysha, T.S.. Correction to: Synthesis of New D–π–A Phenothiazine-Based Fluorescent Dyes: Aggregation Induced Emission and Antibacterial Activity(Journal of Fluorescence, 10.1007/s10895-024-03708-7). 2025.

11. Ou, X., Yang, S., and Tang, B.Z.. Computational microscopy of excited aggregates. 2025.

12. Unknown Authors. Erratum: In Vivo Real-Time Imaging of Extracellular Vesicles in Liver Regeneration via Aggregation-Induced Emission Luminogens (ACS Nano (2019) 13:3 (3522-3533) DOI: 10.1021/acsnano.8b09776). 2025.

13. Li, X.. Properties and Applications of Nanoparticles and Nanomaterials. 2025.

14. Liang, L., Peng, T., Geng, X., Zhu, W., Liu, C., Peng, H., Chen, B.Z., and Guo, X.. Correction: Aggregation-induced emission photosensitizer microneedles for enhanced melanoma photodynamic therapy(Biomater. Sci. (2024 ) 2 (1263–1273) DOI: 10.1039/D3BM01819A). 2025.

15. Unknown Authors. Optical Manipulation and Structured Materials Conference 2025. 2025.

16. Blas-Gómez, S., Alonso-Moreno, C., Garzón-Ruiz, A., and Bravo, I.. Unlocking new frontiers in bioimaging: The power of FLIM-AIE integration. 2025.