Siyuan Wu scite author profile

Understanding the evolution of heatwaves is important for their prediction, mitigation, and adaptation. While most studies focused on either their temporal variability at individual station (or grid point) or the spatial variation over fixed durations, their daily joint evolution over space and time remains largely unexplored. Here, we investigate multi‐dimensional characteristics of spatiotemporally contiguous heatwaves across China during 1961–2018 using observational data from a 3D perspective (i.e., latitude × longitude × time). Results obtained by the 3D identification show that large contiguous heatwaves in China exhibit distinct characteristics in different geographical locations and time periods. Heatwaves in northern areas prefer to move from west to east at a faster speed, persist longer, and have greater extent and intensity than southern heatwaves, which are generally originated from the east and move westward. It is also found that contiguous heatwaves are growing in frequency, magnitude, areal extent, duration, and traveling distance across China.

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Confining MoS₂ nanodots in 3D porous nitrogen-doped graphene with amendable ORR performance

Huang

Feng

et al. 2015

J. Mater. Chem. A

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Siyuan Wu

Molecular simulation of coal-fired plant flue gas competitive adsorption and diffusion on coal

Incorporated oxygen in MoS₂ ultrathin nanosheets for efficient ORR catalysis

An Observational Investigation of Spatiotemporally Contiguous Heatwaves in China From a 3D Perspective

Confining MoS₂ nanodots in 3D porous nitrogen-doped graphene with amendable ORR performance

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Siyuan Wu

Molecular simulation of coal-fired plant flue gas competitive adsorption and diffusion on coal

Incorporated oxygen in MoS2 ultrathin nanosheets for efficient ORR catalysis

An Observational Investigation of Spatiotemporally Contiguous Heatwaves in China From a 3D Perspective

Confining MoS2 nanodots in 3D porous nitrogen-doped graphene with amendable ORR performance

Contact Info

Product

Resources

About

Incorporated oxygen in MoS₂ ultrathin nanosheets for efficient ORR catalysis

Confining MoS₂ nanodots in 3D porous nitrogen-doped graphene with amendable ORR performance