Gram-scale synthesis of highly biocompatible and intravenous injectable hafnium oxide nanocrystal with enhanced radiotherapy efficacy for cancer theranostic
Yangyang Li(Chinese Academy of Sciences), Min Zhou(University of Michigan), Yuchen Qi(University of California, San Diego), Hongbo Zhang(Åbo Akademi University), Wanlin Li(Huawei Technologies (China)), Tingting Xie(Second Affiliated Hospital of Zhejiang University), Zhiming Xia(Second Affiliated Hospital of Zhejiang University), Danni Zhong(Zhejiang University), Huanle Zhu(Sir Run Run Shaw Hospital)
Cited by 97
Related Papers
Engineered algae: A novel oxygen-generating system for effective treatment of hypoxic cancer
|Science Advances|2020|275
Programmable and Multifunctional DNA‐Based Materials for Biomedical Applications
|Advanced Materials|2018|248
Microalgae-based oral microcarriers for gut microbiota homeostasis and intestinal protection in cancer radiotherapy
|Nature Communications|2022|236
Early TIPS with covered stents versus standard treatment for acute variceal bleeding in patients with advanced cirrhosis: a randomised controlled trial
|The Lancet. Gastroenterology & hepatology|2019|230
Orally deliverable strategy based on microalgal biomass for intestinal disease treatment
|Science Advances|2021|229