Dapeng Zhao

Oct 8, 2024 | nature.com | Dapeng Zhao |Yi-Gang Xu |Lijun Liu |Yinshuang Ai

AbstractThe intraplate magmatic systems of the Wudalianchi potassic volcanic region in northeast China have historically exhibited eruption activity, and there is evidence that they retain the potential for future eruptions. However, the characteristics of this complex volcanic region remain debated and poorly understood due to the relatively low resolution of existing crustal tomography.

Apr 20, 2024 | nature.com | Dapeng Zhao |Wenqiang Cui |Liguo Zhang |Ding Zhang |Yilin Wang |Lili Wang | +2 more

AbstractOne-unit-cell FeSe films on SrTiO3 substrates are of great interest owing to significantly enlarged pairing gaps characterized by two coherence peaks at ±10 meV and ±20 meV. In-situ transport measurement is desired to reveal novel properties. Here, we performed in-situ microscale electrical transport and combined scanning tunneling microscopy measurements on continuous one-unit-cell FeSe films with twin boundaries.

Mar 12, 2024 | nature.com | Jianke Fan |Dapeng Zhao |Cuilin Li |Lijun Liu

AbstractSeismic anisotropy could provide vital information about the evolution and internal convection of the deep Earth interior. Although previous seismological studies have revealed a wide distribution of seismic anisotropy in the upper portion of the lower mantle beneath many subduction zones, the existence of anisotropy at these depths away from subducted slabs remains debated. Here we use P-wave azimuthal anisotropy tomography to image the crust and mantle down to 1,600-km depth.

Feb 26, 2024 | mdpi.com | Hongyu Yao |Hong Wu |Dapeng Zhao |Qiying Mo

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Sep 1, 2023 | frontiersin.org | Yujiang Fan |Dapeng Zhao |Hanyu Shao

1 IntroductionNew histocompatibility scaffold materials are being developed in bone tissue engineering research to use these materials as templates for bone tissue regeneration to support loading, cell adhesion, and tissue defect repair. The creation of a novel artificial bone graft replacement material with strong mechanical properties as well as favourable bone healing capabilities may promote bone regeneration in clinical circumstances (Mandrycky et al., 2016; Deng et al., 2021).