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A new sensitive target discovered for radiotherapy
Professor Huang Chen's research team, Department of Cell and Genetics, School of Basic Medicine, XJTU Health Science Center, collaboratedwith Zhou Jiangbing's research team, Yale University, and published LRRC31 Inhibits DNA Repairand SensitizesBreastCancer Brain Metastasis to Radiation Therapyin Nature Cell Biologyon October 1, 2020.
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XJTU researchers narrow chronological error of the Younger Dryas Event
On September 8, 2020, Proceedings of the National Academy of Sciencespublished Timing and Structure of the Younger Dryas Event and Its Underlying Climate Dynamics by XJTU Professor Cheng Hai and his team.
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XJTU researchers find exceptional plasticity of bulk crystalline van der Waals semiconductor InSe
Recently, researchers from Xi’an Jiaotong University (XJTU), Shanghai Jiao Tong University (SJTU), ShanghaiInstitute of Ceramics of Chinese Academy of Sciences (SICCAS) jointly published Exceptional plasticity in the bulksingle crystalline van der Waals semiconductor InSein Science.
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XJTU researchers find a novel body-centric cubic liquid organic framework based on I‐WP minimal surface
Two teams led, respectively, by XJTU Professor Liu Feng and Professor Carsten Tschierske of Martin-Luther-Universitt Halle-Wittenberg (MLU) carried out research on liquid organic frameworks andf ound an 8-connected network with body-centered cubic symmetry.
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XJTU medical researchers made academic progress in treating obesity
Recently, XJTU's medical researchers found and proved that mechanosensitive cationic channel Piezo1 mediates diet-induced adipogenesis, and that Piezo1-mediated adipocyte mechano-signaling is a mechanism to modulate obesity.
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Cellular endothelial microRNA-483 significantly inhibits pulmonary hypertension
The results were published inEMBO Molecular Medicinetitled MicroRNA‐483 amelioration of experimental pulmonary hypertension, with XJTU’s doctoral candidate, Zhang Jin, the first author, and XJTU the institutional affiliation of the first author.
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Upgraded polymer electrolyte developed to improve Lithium metal battery efficiency
Traditional organic liquid electrolytes often volatilize at high temperatures, leading to fire risks. Electrolytes can react with lithium metals, resulting in lithium dendrite growth and Coulombic efficiency reduction.
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Nature publishes recent research results of XJTU researchers
Recently, Naturepublished Transparent Ferroelectric Crystals with Ultrahigh Piezoelectricity, reporting research results of XJTU's research teams led by professors Xu Zhuo and Li Fei.
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