Special issue on enhanced photodynamic therapy: Part II

Buhong Li; Lothar Lilge

doi:10.1142/S1793545822020035

[1] B. Li, L. Lilge. Introduction to the special issue on enhanced photodynamic therapy. J. Innov. Opt. Health Sci., 15, 2202002(2022).

[2] H. Li, M. Wei, X. Lv, Y. Hu, J. Shao, X. Song, D. Yang, W. Wang, B. Li, X. Dong. Cerium-based nanoparticles for cancer photodynamic therapy. J. Innov. Opt. Health Sci., 15, 2230009(2022).

[3] Y. Zhou, W. Zeng, M. Wang, R. Li, X. Yue, Z. Dai. Ultrasmall pH-responsive silicon phthalocyanine micelle for selective photodynamic therapy against tumor. J. Innov. Opt. Health Sci., 15, 2250035(2022).

[4] Y. Zhang, G. Li, J. Li, M. Wu, X. Liu, J. Liu. A novel BODIPY-based nano-photosensitizer with aggregation-induced emission for cancer photodynamic therapy. J. Innov. Opt. Health Sci., 15, 2240009(2022).

[5] L. Guo, B. Xu, H. Chen, Y. Tang. Photoswitchable semiconducting polymer dots with photosensitizer molecule and photochromic molecule loading for photodynamic cancer therapy. J. Innov. Opt. Health Sci., 15, 2240007(2022).

[6] J. Xiong, X. Wang, X. Hu, Y. Han, Q. Li. A Portable illumination device for photodynamic therapy of the oral cavity. J. Innov. Opt. Health Sci., 15, 2240012(2022).

[7] D. Ortega-Zambrano, D. Fuentes-López, H. Mercado-Uribe. Photoinactivation of Escherichia coli using five photosensitizers and the same number of photons. J. Innov. Opt. Health Sci., 15, 2240010(2022).

[8] M. Dan, W. Song, M. Liu, Y. Zhang, F. Gao. Three-dimensional quantification of protoporphyrin IX in photodynamic therapy using SFDI/DFT: A pilot experimental validation. J. Innov. Opt. Health Sci., 15, 2240008(2022).

[9] C. Zhang, H. Lin, Y. Hu, J. Sui, L. Lin, B. Li. Monitoring of time-resolved singlet oxygen luminescence at 1270 nm by an optical fiber detection system. J. Innov. Opt. Health Sci., 15, 2240011(2022).