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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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XJTU's iHarbour integrates energy conservation and emission education technologies
September 19, 2025
iHarbour is a smart academic town jointly built by Xi'an Jiaotong University (XJTU) and Fengxi New City of Xixian New Area, providing technological support for Fengxi New City to create a future-oriented green and smart city.
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XJTU researchers unravel genetic architecture of cleft lip and palate
September 18, 2025
Non-syndromic orofacial clefts (NSOCs) are the most common congenital developmental malformations in the oral and craniofacial region, affecting patients' appearance, oral and maxillofacial function, and mental health.
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XJTU team achieves breakthrough in cardiovascular disease monitoring
September 12, 2025
XJTU teams have jointly developed a skin-adaptive focused flexible micromachined ultrasound transducer array.
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XJTU research team achieves significant progress in self-powered sensing technology
September 11, 2025
XJTU team has proposed a multi-coupling optimization strategy that enhances the output power density of miniaturized magneto-mechano-electric (MME) energy harvesters by strengthening the magneto-mechanical-electrical coupling mechanism.
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XJTU team achieves key advances in dielectric energy storage
September 09, 2025
Professor Zhou Di's team from the School of Electronic Science and Engineering, Faculty of Electronic and Information Engineering at Xi'an Jiaotong University (XJTU), has proposed a Polar Glass State (PGS) strategy based on the novel concept of regulating ferroelectric energy storage through configuration entropy engineering.
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XJTU's research published in Nature Physics
August 28, 2025
The Laboratory for Chemo-Mechanics Coupling and Intelligent Materials at Xi'an Jiaotong University (XJTU), along with a number of collaborators, has designed a special capacitive beam structure in which ultrapure water is filled between two metal electrodes, and surface tension is used to confine it within the electrode area to prevent diffusion.
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XJTU achieves breakthrough in integrated high-performance spin-orbit torque devices
August 27, 2025
In spin-orbit torque (SOT) devices, a current is used to generate a spin current via a material with strong spin-orbit coupling, which then applies torque to an adjacent ferromagnetic layer, triggering magnetization switching.