Xin Zeng
Nanjing Medical University
34 Papers
188 Citations
Xin Zeng is an academic researcher from Nanjing Medical University. The author has contributed to research in topics: Medicine & Drug delivery. The author has an hindex of 11, co-authored 30 publications. Previous affiliations of Xin Zeng include Southeast University.
Chat about Author
Papers
Blood-triggered generation of platinum nanoparticle functions as an anti-cancer agent.
Xin Zeng,Jie Sun,Suping Li,Suping Li,Jiyun Shi,Han Gao,Wei Sun Leong,Yiqi Wu,Minghui Li,Chengxin Liu,Ping Li,Jing Kong,Yi Zhou Wu,Guangjun Nie,Guangjun Nie,Guangjun Nie,Yuming Fu,Gen Zhang +17 more
TL;DR: It is demonstrated that Pt NPs with protein coronas are generated in vivo in human blood when a patient is treated with cisplatin and how platinum nanoparticles can be synthesized using patients’ blood and provide effective drug delivery and cancer treatments.
The effects of multifunctional MiR-122-loaded graphene-gold composites on drug-resistant liver cancer
Yi Yuan,Yaqin Zhang,Bin Liu,Heming Wu,Yanjun Kang,Ming Li,Xin Zeng,Nongyue He,Gen Zhang,Gen Zhang +9 more
TL;DR: It is suggested that GGMPN could serve as a novel therapeutic approach to control tumor cell apoptosis and growth.
Preparation and biomedical applications of gold-coated magnetic nanocomposites.
TL;DR: This review is focused on describing various strategies for the preparation of gold-coated magnetic nanocomposites, including microemulsion, sonochemical synthesis, self assembly, seed-mediated growth method, and laser irradiation.
34
Copy number variation analysis by ligation-dependent PCR based on magnetic nanoparticles and chemiluminescence.
Ming Liu,Ping Hu,Gen Zhang,Yu Zeng,Haowen Yang,Jing Fan,Lian Jin,Hongna Liu,Yan Deng,Song Li,Xin Zeng,Sauli Elingarami,Nongyue He +12 more
TL;DR: The novel MNPs-CL system is a useful analytical tool which shows simple, sensitive, and specific characters which are suitable for CNV analysis and its application in the genome variation detection of various diseases is currently under further investigation.
Synthesis of size-controlled Fe3O4@SiO2 magnetic nanoparticles for nucleic acid analysis.
TL;DR: FeO4@SiO2 nanoparticles immobilized by streptavidin were excellent carriers in nucleic acid analysis due to their convenient magnetic-separation property, and synthesized Fe3O4 and Fe2O4 with controllable size and high magnetic saturation have shown great application potentials inucleic acid research.
32