Hua Zhou

Sep 13, 2024 | nature.com | Hua Zhou

AbstractInfectious diseases have caused enormous disasters in human society, and asymptomatic carriers are an important challenge in our epidemic prevention and control process. Nucleic acid testing has played an important role in rapid testing for asymptomatic individuals. How to carry out nucleic acid testing in a scientific manner is a practical problem encountered in normal production and life.

Aug 13, 2024 | nature.com | Maoyu Wang |Weixin Guan |Hua Zhou |Gengfeng Zheng |Yuanyue Liu |Jamie Warner

AbstractGiven the growing emphasis on energy efficiency, environmental sustainability, and agricultural demand, there’s a pressing need for decentralized and scalable ammonia production. Converting nitrate ions electrochemically, which are commonly found in industrial wastewater and polluted groundwater, into ammonia offers a viable approach for both wastewater treatment and ammonia production yet limited by low producibility and scalability.

May 9, 2024 | dovepress.com | Huanhuan Wang |Dan Xiao |Hua Zhou |Shu Chen

Back to Journals » Journal of Inflammation Research » Volume 17 Authors Wang H, Xiao D, Zhou H, Chen S, Xiao G , Hu J, Quan H, Luo M, Zhang S Received 9 May 2024 Accepted for publication 16 August 2024 Published 26 August 2024 Volume 2024:17 Pages 5633—5643 DOI https://doi.org/10.2147/JIR.S477526 Checked for plagiarism Yes Review by Single anonymous peer review Peer reviewer comments 2 Editor who approved publication: Professor Ning Quan Huanhuan Wang,1,* Dan Xiao,2,* Hua Zhou,3,*...

Oct 9, 2023 | pubs.rsc.org | Hongwu Chen |Zhifang Liu |Hua Zhou |Xue Yang

Screening Potential Anodic Chemistry In lieu of Oxygen Evolution Reaction in Electrolysis Systems: The Road to Practical Application Electrolysis systems transform the electrical energy to chemical energy, providing a pathway for renewable electricity power to value-added chemicals.

Feb 17, 2023 | onlinelibrary.wiley.com | Yu-Quan Zhu |Hua Zhou |Juncai Dong |Si-Min Xu

Graphical Abstract Transition metal (oxy)hydroxides are well-known catalysts for biomass electrooxidation to produce valuable chemicals. However, identification of active site remains elusive, owing to the structural complexity under reaction conditions. In this work, a suite of operando spectroscopies and theoretical calculations were combined, unveiling two types of reducible Co3+-oxo species as the active sites in cobalt oxyhydroxide for glucose electrooxidation.