Tingxian Li

Jul 18, 2024 | nature.com | Pengfei Wang |Tingxian Li

AbstractHarvesting electricity from ubiquitous water vapor represents a promising route to alleviate the energy crisis. However, existing studies rarely comprehensively consider the impact of natural environmental fluctuations on electrical output.

Jul 15, 2024 | nature.com | Pengfei Wang |Tingxian Li

The upstream self-diffusion of dissociated protons induces long-lasting electricity generation in 2D nanochannels of MXene/PVA film with low water permeability.

Jun 20, 2024 | nature.com | Si Wu |Tingxian Li

Correction to: Nature Energy https://doi.org/10.1038/s41560-023-01219-6, published online 24 February 2023In the version of the article initially published, the Fig. 1b labels now reading “Isothermal heat rejection” and “Isothermal heat absorption” originally read “Isentropic heat rejection” and “Isentropic heat absorption”. The figure has now been amended in the HTML and PDF versions of the article. About this articleWu, S., Li, T. Author Correction: Taking control of salts. Nat Energy (2024).

Jul 25, 2023 | frontiersin.org | Tingxian Li |Yanxin Hu |Yi Cui |Chen Junli

1 IntroductionThe energy crisis and greenhouse effect are serious environmental problems. As an effective solution, the development and utilization of renewable energy have been highly valued (Khare et al., 2016; Javed et al., 2020).

Feb 24, 2023 | nature.com | Si Wu |Tingxian Li

Conventional and emerging refrigeration technologies either use refrigerants with high-global warming potential (GWP) or require application of strong fields. Now, researchers demonstrate ionocaloric refrigeration based on the electrochemical tuning of the melting behaviour of zero-GWP materials under low applied field strength. The most widely used technology for refrigeration uses a vapour-compression system based on the liquid-gas phase transition of refrigerants.