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XJTU researchers advance phase-change memory simulation with machine learning
October 16, 2025
Nature Communications recently published a research paper titled Full-cycle device-scale simulations of memory materials with a tailored atomic-cluster-expansion potential.
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XJTU team improves hydrogen production efficiency
October 16, 2025
After two years of exploration, a research team from the School of Chemical Engineering at Xi'an Jiaotong University (XJTU) has proposed a simple fluoride-mediated stabilization and reconstruction strategy.
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XJTU achieves breakthrough in polymer solid-state lithium battery research
October 15, 2025
Professor Xu Youlong's research team from the Advanced Energy Storage Electronic Materials and Devices Institute at Xi'an Jiaotong University (XJTU) has proposed an innovative "molecular synergy engineering" strategy.
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XJTU team achieves breakthrough in controlling interlayer sliding in bilayer graphene
October 05, 2025
Recently, a research team led by Professor Wang Zhe, the School of Physics at Xi'an Jiaotong University (XJTU), demonstrated that through numerical simulations, bent bilayer graphene structures can overcome slip barriers and achieve energy-stable interlayer sliding.
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XJTU's CAID team publishes research in Nature Materials
October 01, 2025
Nature Materials published an online research paper titled Amorphous phase-change memory alloy with no resistance drift on Oct 1.
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XJTU research team wins two paper awards from IEEE
September 29, 2025
The Institute of Electrical and Electronics Engineers' (IEEE) Power Electronics Society (PELS) recently announced the winners of the 2024 Best Paper Awards for its flagship journal IEEE Transactions on Power Electronics (TPEL).
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XJTU research team makes progress in polymer solid-state electrolytes
September 26, 2025
Associate Professor Gao Guoxin's team from the School of Chemistry at Xi'an Jiaotong University (XJTU) recently overcame this difficulty, proposing an innovative strategy of a "multi-level porous aramid nanofiber-supported dual-crosslinked polymer network".
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XJTU research featured in Nature Materials
September 20, 2025
The Laboratory for Chemo-Mechanics Coupling and Intelligent Materials at Xi'an Jiaotong University (XJTU) and collaborators have discovered that doping ice with salt can increase the flexoelectric coefficient by approximately three orders of magnitude.
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