Jun Jiang
Soochow University (Suzhou)
13 Papers
13 Citations
Jun Jiang is an academic researcher from Soochow University (Suzhou). The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 3, co-authored 7 publications.
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Papers
Nanoparticle-induced ferroptosis: detection methods, mechanisms and applications.
Huizhen Zheng,Jun Jiang,Shujuan Xu,Wei Liu,Qianqian Xie,Xiaoming Cai,Jie Zhang,Sijin Liu,Ruibin Li +8 more
TL;DR: In this article, the authors discuss the molecular initiating events of nanosized ferroptosis inducers and the cascade signals in cells, and elaborate the cell death mechanism, and the key physicochemical properties of nano-inducers are also discussed to acquire a fundamental understanding of nan-structure-activity relationships (nano-SARs) involved in cell death.
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Molecular Mechanisms, Characterization Methods, and Utilities of Nanoparticle Biotransformation in Nanosafety Assessments
TL;DR: This work summarizes the nano-bio interfaces and dose calculation in inhalation, dermal, ingestion, and injection exposures to humans and five types of biotransformation are shown, including aggregation and agglomeration, corona formation, decomposition, recrystallization, and redox reactions.
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Engineering Corona Structure on Gold Nanoclusters for Gastrointestinal Imaging by Red‐shifted Emissions in the Second Near‐infrared Window
Ruibin Li,Weili Wang,Yifei Kong,Jun Jiang,Qianqian Xie,Yang Huang,Guanna Li,Di Wu,Huizhen Zheng,Meng Gao,Shujuan Xu,Yanxia Pan,Wei Li,Ronglin Ma,Mei X. Wu,Xuehua Li,Xiaoming Cai,Han Zuilhof +17 more
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Engineering micro oxygen factories to slow tumour progression via hyperoxic microenvironments
Weili Wang,Huizhen Zheng,Jun Jiang,Zhi Li,Dongpeng Jiang,Xiangru Shi,Hui Wang,Jie Jiang,Qianqian Xie,Mengxu Gao,Jianhong Chu,Xiaoming Cai,Tian Xia,Ruibin Li +13 more
TL;DR: In this article , photosynthesis microcapsules (PMC) are constructed by encapsulation of acquired cyanobacteria and upconversion nanoparticles in alginate micro capsules.
Doped Graphene To Mimic the Bacterial NADH Oxidase for One-Step NAD+ Supplementation in Mammals.
Xi Liu,Jingkun Li,Andrea Zitolo,Mengxu Gao,Jun Jiang,Xiangtian Geng,Qianqian Xie,Di Wu,Huizhen Zheng,Xiaoming Cai,Jianmei Lu,Frédéric Jaouen,Ruibin Li +12 more
TL;DR: In this paper , metal-nitrogen-doped graphene (MNGR) materials can catalyze the oxidation of NADH into NAD+, thereby taking over the natural role of the NADH oxidase (NOX) present in bacteria.
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