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XJTU team achieves breakthrough in AI-driven operation management
August 04, 2025
Online assortment optimization has emerged as a critical research focus on operations management, exploring how platforms can meticulously select an optimal product portfolio from limited inventory and recommend it to diverse.
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XJTU team pioneers water-compatible silicon-based drug assembly platform
August 01, 2025
Organic silicon compounds, critical in materials science and pharmaceutical development, serve as cornerstones of modern industries due to their unique chemical stability and structural diversity.
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XJTU team achieves breakthrough in special functional alloys
July 28, 2025
Negative thermal expansion (NTE) materials are specialized functional materials that exhibit anomalous expansion and hold broad application prospects in high-tech fields such as precision transmission.
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XJTU and Zhejiang University team propose novel aerogel in Science
July 24, 2025
Aerogels, renowned for their high porosity and ultralow density, have emerged as a class of multifunctional materials with significant application potential, widely employed in aerospace exploration, sensors, thermal management, and chemical catalysis.
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XJTU research team makes progress in aqueous supercapacitors
July 20, 2025
Aqueous supercapacitors have attracted attention due to their excellent capacitive characteristics, high safety, and environmental friendliness.
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XJTU achieves breakthrough in micro-nano scale vacuum insulation and field emission theory
July 18, 2025
Field-induced electron emission serves as the primary initiating mechanism for vacuum breakdown and insulation failure, forming the theoretical foundation for vacuum insulation design and application in high-performance electrical equipment and micro-nano electronic devices.
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XJTU professors win Frontiers of Science award at 2025 ICBS
July 18, 2025
The 2025 International Congress of Basic Science (ICBS) commenced on July 13 at the China National Convention Center in Beijing.
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XJTU achieves breakthrough in lithium battery cathode material regeneration
July 14, 2025
Direct recycling technology is considered a practical approach to addressing environmental pollution and resource waste resulting from spent lithium-ion batteries.
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