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	An eco-friendly in situ activatable antibiotic via cucurbit[8]uril-mediated supramolecular crosslinking of branched polyethylenimine. Journal article Li, S., Jiang, N, Zhao, W, Ding, YF, Zheng, Y, Wang , L.H., Zheng, J., Wang, R.. An eco-friendly in situ activatable antibiotic via cucurbit[8]uril-mediated supramolecular crosslinking of branched polyethylenimine.[J]. Chemical Communications, 2017, 5870-5873. Authors: Li, S.; Jiang, N; Zhao, W; Ding, YF; Zheng, Y; et al. Favorite \| TC[WOS]:56 TC[Scopus]:55 \| Submit date：2022/07/29 Activatable Antibiotic Cucurbit[8]Uril Supramolecular Crosslinking Polyethylenimine.
	Facile Assembly of Cost-Effective and Locally Applicable or Injectable Nanohemostats for Hemorrhage Control Journal article Juan Cheng, Shibin Feng, Songling Han, Xiangjun Zhang, Yidan Chen, Xing Zhou, Ruibing Wang, Xiaohui Li, Houyuan Hu, Jianxiang Zhang. Facile Assembly of Cost-Effective and Locally Applicable or Injectable Nanohemostats for Hemorrhage Control[J]. ACS Nano, 2016, 10(11), 9957-9973. Authors: Juan Cheng; Shibin Feng; Songling Han; Xiangjun Zhang; Yidan Chen; et al. Favorite \| TC[WOS]:44 TC[Scopus]:43 IF:15.8/16.2 \| Submit date：2018/11/06 Cholic Acid Hemostasis Nanohemostat Nanoparticle Polyethylenimine Self-assembly

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