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  • 结合闪蒸石墨烯,实现可持续性3D打印
    结合闪蒸石墨烯,实现可持续性3D打印 结合闪蒸石墨烯,实现可持续性3D打印

    开发了一种由大豆油和天然多酚制成的可再生墨水,这种墨水不仅可以重复打印使用,还可以从打印的生物基复合材料中降解、回收油墨...

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  • 仅需8秒,塑料废弃物变成石墨烯
    仅需8秒,塑料废弃物变成石墨烯 仅需8秒,塑料废弃物变成石墨烯

    提出了一种通过闪蒸焦耳热法(FJH)将塑料废弃物(PW)高效转化为闪蒸石墨烯(FG)的方法。该方法先将塑料废弃物(PW)...

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  • AFM:仅需0.1秒,回收石墨的升级再造新技术
    AFM:仅需0.1秒,回收石墨的升级再造新技术 AFM:仅需0.1秒,回收石墨的升级再造新技术

    介绍了一种直接和快速的高温升级回收降解石墨的新方法。使用连续高温加热过程(约2000 K),能够在0.1秒内完成降解石墨...

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  • 50毫秒快速合成Fe/碳纳米复合材料
    50毫秒快速合成Fe/碳纳米复合材料 50毫秒快速合成Fe/碳纳米复合材料

    通过碳辅助闪蒸焦耳加热(C-FJH)技术,在毫秒级别内优先沉积碳层以阻止Fe-氧化层的生长,这是一个“快速胜出”的策略。...

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  • Tour教授课题组2024年Advanced Materials:毫秒级闪蒸碳热法合成金属玻璃纳米颗粒
    Tour教授课题组2024年Advanced Materials:毫秒级闪蒸碳热法合成金属玻璃纳米颗粒 Tour教授课题组2024年Advanced Materials:毫秒级闪蒸碳热法合成金属玻璃纳米颗粒

    利用动力学控制的闪蒸碳热反应法,在毫秒级内实现了金属玻璃纳米颗粒的合成,这种方法特别适用于贵金属和基础金属的快速加热和冷...

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  • Carbon:Flash Joule heating to enhance water oxidation of hematite photoanode via mediating with an oxidized carbon overlayer
    Carbon:Flash Joule heating to enhance water oxidation of hematite photoanode via mediating with an oxidized carbon overlayer Carbon:Flash Joule heating to enhance water oxidation of hematite photoanode via mediating with an oxidized carbon overlayer

    本篇文献描述了一种利用快速焦耳加热技术合成氧化碳覆盖层介导的赤铁矿光电极的方法。该方法通过简单的NaH2PO2浸泡和快速...

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  • ACS Appl Nano Mater:Ordered-Range Tuning of Flash Graphene for Fast-Charging Lithium-Ion Batteries
    ACS Appl Nano Mater:Ordered-Range Tuning of Flash Graphene for Fast-Charging Lithium-Ion Batteries ACS Appl Nano Mater:Ordered-Range Tuning of Flash Graphene for Fast-Charging Lithium-Ion Batteries

    这篇文献主要介绍了石墨烯在锂离子电池(LIB)快速充电应用中的挑战及其解决方案。由于石墨烯的原子排列无缺陷,导致锂在平面...

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  • Research on Chemical Intermediates:Facilely preparing lignin-derived graphene-ferroferric oxide nanocomposites by flash Joule heating method
    Research on Chemical Intermediates:Facilely preparing lignin-derived graphene-ferroferric oxide nanocomposites by flash Joule heating method Research on Chemical Intermediates:Facilely preparing lignin-derived graphene-ferroferric oxide nanocomposites by flash Joule heating method

    本篇文献主要讲述了利用瞬时焦耳加热过程将木质素高效转化为石墨烯基纳米复合材料的方法。该方法通过木质素与三氯化铁溶液的混合...

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  • ACS Nano:Sustainable 3D Printing of Recyclable Biocomposite Empowered by Flash Graphene
    ACS Nano:Sustainable 3D Printing of Recyclable Biocomposite Empowered by Flash Graphene ACS Nano:Sustainable 3D Printing of Recyclable Biocomposite Empowered by Flash Graphene

    本篇文献介绍了3D打印的可持续性,主要体现在三个方面:使用可再生墨水、回收打印产品以及节能和节材的应用。文章展示了基于光...

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  • ACS Applied Materials & Interfaces:Replacement of Concrete Aggregates with Coal-Derived Flash Graphene
    ACS Applied Materials & Interfaces:Replacement of Concrete Aggregates with Coal-Derived Flash Graphene ACS Applied Materials & Interfaces:Replacement of Concrete Aggregates with Coal-Derived Flash Graphene

    本文提出了一种利用闪蒸焦耳加热法(FJH)将煤制冶金焦炭(MC)转化为快速石墨烯骨料(FGA)的方法,该骨料由MC衍生的...

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  • ChemRxiv:Mineralization of Captured Per- and Polyfluoroalkyl Substances (PFAS) at Zero Net Cost Using Flash Joule Heating
    ChemRxiv:Mineralization of Captured Per- and Polyfluoroalkyl Substances (PFAS) at Zero Net Cost Using Flash Joule Heating ChemRxiv:Mineralization of Captured Per- and Polyfluoroalkyl Substances (PFAS) at Zero Net Cost Using Flash Joule Heating

    本篇文献研究展示了使用电热矿化过程处理PFAS-GAC的方法。在钠或钙盐的存在下,通过闪蒸焦耳加热(FJH)处理PFAS...

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  • Nature Communications:High-temperature electrothermal remediation of multi-pollutants in soil
    Nature Communications:High-temperature electrothermal remediation of multi-pollutants in soil Nature Communications:High-temperature electrothermal remediation of multi-pollutants in soil

    本篇文献介绍了一种高温电热过程,可快速、无水地修复土壤中的多种污染物。通过脉冲直流输入,含碳添加剂的污染土壤温度可在几秒...

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  • Chem Rxiv:Graphene Derived from Municipal Solid Waste
    Chem Rxiv:Graphene Derived from Municipal Solid Waste Chem Rxiv:Graphene Derived from Municipal Solid Waste

    本篇文献报告了使用快速焦耳加热法从经过处理的MSW(包括处理过的木材废物)中生产石墨烯的方法。与传统处置方法相比,此方法...

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  • Chem Rxiv:Flash In2Se3 for neuromorphic computing
    Chem Rxiv:Flash In2Se3 for neuromorphic computing Chem Rxiv:Flash In2Se3 for neuromorphic computing

    本篇文献简要介绍了一种基于二维铁电半导体(尤其是In2Se3)的记忆晶体管技术,这项技术有望推动下一代内存和神经形态计算...

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  • Macromolecular Materials and Engineering:Conversion of CO2-Derived Amorphous Carbon into Flash Graphene Additives
    Macromolecular Materials and Engineering:Conversion of CO2-Derived Amorphous Carbon into Flash Graphene Additives Macromolecular Materials and Engineering:Conversion of CO2-Derived Amorphous Carbon into Flash Graphene Additives

    本篇文献开发二氧化碳的捕获、储存和利用技术。其中,熔融碳酸盐电解等方法能有效将气态二氧化碳转化为固态碳原料。同时,闪蒸焦...

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  • Advanced Materials:Coal-Based Carbon Nanomaterials En Route to Clean Coal Conversion toward Net Zero CO2
    Advanced Materials:Coal-Based Carbon Nanomaterials En Route to Clean Coal Conversion toward Net Zero CO2 Advanced Materials:Coal-Based Carbon Nanomaterials En Route to Clean Coal Conversion toward Net Zero CO2

    文献概述了煤炭基碳纳米材料合成的挑战以及实现商业化的途径,认为这些材料有望成为清洁煤炭转化概念的贡献者,使煤炭从能源向高...

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  • Science Advances:Battery metal recycling by flash Joule heating
    Science Advances:Battery metal recycling by flash Joule heating Science Advances:Battery metal recycling by flash Joule heating

    本篇文献基于锂离子电池(LIBs)回收的紧迫性及其挑战,提出了一种脉冲直流闪蒸焦耳加热(FJH)方法。该方法能迅速加热电...

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  • Small Methods:Automated Laboratory Kilogram-Scale Graphene Production from Coal
    Small Methods:Automated Laboratory Kilogram-Scale Graphene Production from Coal Small Methods:Automated Laboratory Kilogram-Scale Graphene Production from Coal

    本篇文献主要介绍了闪蒸焦耳加热(Flash Joule Heating,简称FJH)方法,这是一种使用电脉冲在毫秒到秒级...

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  • Digital Discovery:A scientific machine learning framework to understand flash graphene synthesis
    Digital Discovery:A scientific machine learning framework to understand flash graphene synthesis Digital Discovery:A scientific machine learning framework to understand flash graphene synthesis

    闪蒸焦耳加热反应器(FJH) 是一种将低价值碳基材料转化为闪蒸石墨烯(FG)的远离平衡(FFE)加工方法。研究人员构建了...

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  • Macromolecular Materials and Engineering:Ultra-High Loading of Coal-Derived Flash Graphene Additives in Epoxy Composites
    Macromolecular Materials and Engineering:Ultra-High Loading of Coal-Derived Flash Graphene Additives in Epoxy Composites Macromolecular Materials and Engineering:Ultra-High Loading of Coal-Derived Flash Graphene Additives in Epoxy Composites

    主要介绍了石墨烯作为复合材料增强剂的卓越性能,但合成成本高昂阻碍了其工业化应用。文章提出了一种通过闪蒸焦耳加热法从冶金焦...

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