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XJTU research team proposes new approach to biomanufacturing
June 17, 2025
The chemical industry's heavy reliance on fossil resources has led to a surge in carbon dioxide (CO₂) emissions and resource depletion, necessitating an urgent transformation of the traditional linear economic model.
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XJTU research team achieves breakthrough in small RNA profiling
June 10, 2025
Small RNA (sRNA) refers to a class of non-coding RNAs approximately 16-200 nucleotides (nt) in length, primarily including microRNA (miRNA), small interfering RNA (siRNA), small nucleolar RNA (snoRNA), and small cytoplasmic RNA (scRNA).
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XJTU achieves breakthrough in electrocatalytic water oxidation mechanism
June 09, 2025
Water electrolysis technology, a key pathway for producing green hydrogen energy, is constrained by the sluggish kinetics of the anodic oxygen evolution reaction (OER).
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XJTU research team innovates aqueous organic flow batteries
June 07, 2025
Aqueous organic flow batteries (AOFBs) have emerged as a frontier in novel energy storage technologies due to their intrinsic safety, decoupling of power and capacity, and ease of modular scalability.
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XJTU research team proposes multilevel matrix factor model
June 04, 2025
In the era of artificial intelligence, the capabilities for collecting and processing information have rapidly improved, enabling more efficient handling of complex data streams.
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XJTU's research team achieves breakthrough in flexible electrets and ultrahigh equivalent piezoelectric effect
May 30, 2025
Electromechanical coupling devices play a crucial role in high-precision actuation and high-sensitivity mechanical sensing.
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XJTU's research team proposes new strategy in electrocatalytic carbon dioxide reduction reaction
May 29, 2025
Professor Chunhui Xiao and Researcher Shenghua Chen from XJTU proposed a hydrogen-bond network-reconstructed self-assembled fluorinated monolayer (F-SAM) strategy to form an efficient triple-phase interface conducive to mass transport and ion/electron transfer.
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XJTU team proposes AORFBs with high stability and low cost
May 22, 2025
Professor He Gang's team from the Frontier Institute of Science and Technology at Xi'an Jiaotong University (XJTU) has proposed an innovative ionic synergistic strategy to synthesize highly stable naphthalene diimide zwitterion derivatives [(CBu)₂NDI, (SPr)₂NDI, (SPrOH)₂NDI] using an atmospheric pressure method.
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