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Showing 1–9 of 9 results
Advanced filters: Author: Tingxian Li Clear advanced filters

  • Sorption-based atmospheric water harvesting has the capability of capturing water from air anytime and anywhere. A facile strategy to synthesize bidirectionally aligned and hierarchically structured nanocomposite could realize scalable and efficient sorption-based atmospheric water harvesting.

    • Tingxian Li
    • Taisen Yan
    • Ruzhu Wang
    ResearchOpen Access
    Nature Water
    Volume: 1, P: 971-981

  • Collecting water directly from air provides one sustainable solution to water scarcity. Li et al. combine sorption-based atmospheric water harvesting with a thermoelectric module for efficient harvesting water and electricity in arid environments and show that the two components operate synergistically.

    • Tingxian Li
    • Minqiang Wu
    • Siqi Wang
    ResearchOpen Access
    Nature Communications
    Volume: 13, P: 1-11

  • Harvesting electricity from ubiquitous water vapor represents a promising route to alleviate the energy crisis. Here, authors report a bilayer polymer enabling self-sustaining moisture-electric generation by establishing a stable internal water flow through thermal exchange with the environment.

    • Chenyue Guo
    • Huajie Tang
    • Dongliang Zhao
    ResearchOpen Access
    Nature Communications
    Volume: 15, P: 1-9

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

    • Pengfei Wang
    • Tingxian Li
    News & Views
    Nature Nanotechnology
    Volume: 19, P: 1243-1244

  • Thermally-driven water-sorption refrigeration is a promising environmentally friendly technology, but finding suitable porous materials is challenging. The authors report a very high coefficient of performance using a low-cost zeolite-like aluminophosphate as a water sorbent, suitable for use with low-grade thermal energy.

    • Zhangli Liu
    • Jiaxing Xu
    • Xiulan Huai
    ResearchOpen Access
    Nature Communications
    Volume: 13, P: 1-10

  • 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.

    • Si Wu
    • Tingxian Li
    News & Views
    Nature Energy
    Volume: 8, P: 226-227

  • Moisture-sorption-based energy harvesting (MSEH) is a promising strategy for obtaining heat, cold and electricity from ubiquitous moisture anywhere and anytime. This Perspective article discusses the thermodynamic characteristics of MSEH, evaluates global energy production potential and highlights challenges and strategies for realizing high-energy-productivity MSEH.

    • Jiaxing Xu
    • Pengfei Wang
    • Tingxian Li
    Reviews
    Nature Reviews Materials
    Volume: 9, P: 722-737