It is now re-examined with advanced characterization techniques, which find its origin is correlated to oxygen activities.doi:10.1038/s41560-018-0222-0Yang WanliNature Energy
Batteries Electrochemistry Materials for energy and catalysis Access through your institution Buy or subscribe Associated content Oxygen release and oxygen redox Wanli Yang Nature Energy News & Views 30 Jul 2018 Sections Figures References Abstract References Acknowledgements Author information Ethics de...
Sustained oxidative stress and prolonged inflammation are manifested in various GI diseases including ulcers and inflammatory bowel diseases. In this chapter, we will discuss the redox mechanisms underlying specific GI diseases, as well as introduce multiple dietary regimens that likely benefits GI health...
A structural change in the protein upon oxidation of the critical cysteine by hydrogen peroxide causes release of the metal group followed by release of the PerR protein from sites of gene repression. Redox signaling in Eucarya Distinct chemical properties of ROS A primer on redox biology and ...
[31] Han YQ, Ming SL, Wu HT, et al. Myostatin knockout induces apoptosis in human cervical cancer cells via elevated reactive oxygen species generation. Redox Biol. 2018;19:412-428. doi:10.1016/j.redox.2018.09.009(IF:7.126) [32] Liu JZ, Hu YL, Feng Y, et al. BDH2 triggers ROS...
(producer gas) and oxidizing gas for conducting redox cycles, a similar pattern used in most current laboratory research. In the Lane process, iron oxide was first reduced with coal-derived producer gas and then regenerated with steam while producing H2through the steam-iron reaction. The Lane ...
(Kelliher and Walbot2012). Treatment with nitrogen shifted the hypoxia gradient more toward the outer cells of the lobes, where then ectopic AR cells specified. AR formation also dislocated by manipulation of redox status within the anther through treatment with reducing or oxidizing agents. Thus,...
During the past decades, it became obvious that reactive oxygen species (ROS) exert a multitude of biological effects covering a wide spectrum that ranges from physiological regulatory functions to d...
The oxygen redox reaction in lithium-rich layered oxide battery cathode materials generates extra capacity at high cell voltages (i.e., >4.5 V). However, the irreversible oxygen release causes transition metal (TM) dissolution, migration and cell voltage decay. To circumvent these issues, we...
Lithium-rich layered oxides have emerged as a new model for designing the next generation of cathode materials for batteries to assist the transition to a greener energy system. The unique oxygen redox mechanism of such cathodes enables extra energy storage capacity beyond the contribution from merely...