工程界奥斯卡花落谁家?Bentley软件邀您共助中国BIM发展
质量安全是民生保障的基础,工程国也是推动共享发展必须牢牢守住的民生底线。 界奥件邀推荐文献:1.KuanpingGong,etal.,Nitrogen-DopedCarbonNanotubeArrayswithHighElectrocatalyticActivityforOxygenReduction,2009,Science,DOI:10.1126/science.1168049.2.KonggangQu,etal.,PromotionofElectrocatalyticHydrogenEvolutionReactiononNitrogen-DopedCarbonNanosheetswithSecondaryHeteroatoms,2017,ACSNano,DOI:10.1021/acsnano.7b03290.3.JintaoZhang,etal.,Nitrogen,Phosphorus,andFluorineTri‐dopedGrapheneasaMultifunctionalCatalystforSelf‐PoweredElectrochemicalWaterSplitting,2016,AngewandteChemieinternationalEdition,DOI:10.1002/anie.201607405.4.YiJia,etal.,DefectGrapheneasaTrifunctionalCatalystforElectrochemicalReactions,2016,AdvancedMaterials,DOI:10.1002/adma.201602912.5.Jie-MinGe,etal.,Constructingholeygraphenemonolithsviasupramolecularassembly:Enrichingnitrogenheteroatomsuptothetheoreticallimitforhydrogenevolutionreaction,2015,NanoEnergy,DOI:10.1016/j.nanoen.2015.05.017.6.Jin-ChengLi,etal.,A3Dbi-functionalporousN-dopedcarbonmicrotubespongeelectrocatalystforoxygenreductionandoxygenevolutionreactions,2016,EnergyEnviron.Sci.DOI:10.1039/C6EE02169G.7.ChuangangHu,LimingDai,MultifunctionalCarbon-BasedMetal-FreeElectrocatalystsforSimultaneousOxygenReduction,OxygenEvolution,andHydrogenEvolution,2017,AdvancedMaterials,DOI:10.1002/adma.201604942.8.ChuangangHu,LimingDai,DopingofCarbonMaterialsforMetal-FreeElectrocatalysis,2019,AdvancedMaterials,DOI:10.1002/adma.201804672.9.ShaoxuanYang,etal.,Two‐DimensionalConjugatedAromaticNetworksasHigh‐Site‐DensityandSingle‐AtomElectrocatalystsfortheOxygenReductionReaction,2019,DOI:10.1002/anie.201908023.10.SiChen,etal.,Edge-dopingmodulationofN,P-codopedporouscarbonspheresforhigh-performancerechargeableZn-airbatteries,2019,NanoEnergy,DOI:10.1016/j.nanoen.2019.03.084.11.RajibPaul,etal.,3DHeteroatom‐DopedCarbonNanomaterialsasMultifunctionalMetal‐FreeCatalystsforIntegratedEnergyDevices,2019,DOI:10.1002/adma.201805598.12.YanJiao,etal.,OriginoftheElectrocatalyticOxygenReductionActivityofGraphene-BasedCatalysts:ARoadmaptoAchievetheBestPerformance,2014,JournaloftheAmericanChemicalSociety,DOI:10.1021/ja500432h.13.YunPeiZhu,etal.,3DSynergisticallyActiveCarbonNanofibersforImprovedOxygenEvolution,2017,AdvancedEnergyMaterials,DOI:10.1002/aenm.201602928.14.KonggangQu,etal.,Grapheneoxide-polydopaminederivedN,S-codopedcarbonnanosheetsassuperiorbifunctionalelectrocatalystsforoxygenreductionandevolution,2016,NanoEnergy,DOI:10.1016/j.nanoen.2015.11.027.15.ShengChen,etal.,Ionicliquid-assistedsynthesisofN/S-doubledopedgraphenemicrowiresforoxygenevolutionandZn–airbatteries,2015,EnergyStorageMaterials,DOI:10.1016/j.ensm.2015.08.001.本文由NanoOptic供稿。所制备的缺陷石墨烯网格是多孔的多层石墨碳片,花落在0.1MKOH溶液中其ORR性能甚至优于商业20wt.%Pt/C。
[ChuangangHu,LimingDai,MultifunctionalCarbon-BasedMetal-FreeElectrocatalystsforSimultaneousOxygenReduction,OxygenEvolution,andHydrogenEvolution,2017,AdvancedMaterials,DOI:10.1002/adma.201604942]图6.多孔N,S共掺石墨烯片形貌与性能4.展望碳基催化剂表现出了出色的催化性能,助中这使得它们具有广泛的应用潜力,助中从可再生能源到环境保护。虽然近年来兴起的非贵金属基催化剂在一定程度上减少了贵金属的用量,发展对于大规模使用来说,由于资源有限,它们仍然非常昂贵。此外,工程国非贵金属催化剂在空气中容易被氧化,在强酸碱电解质中也存在团聚/溶解,导致稳定性不佳。
结果发现,界奥件邀AHF的热分解为N、P和F的三元掺杂提供了氮、磷和氟源,同时由于热气体的产生促使多孔结构的形成。李新昊教授团队利用一种简便的方法,花落从廉价分子和硫酸铵中制备出含氮量接近氮掺杂碳上限的富氮空穴石墨烯单体。
拥有大规模互联具有微米级空心和多孔强的纤维结构,助中再加上氮的含量高,助中导致其具有高密度的反应位点以及快速的电子转移和高效的质量传输,进而导致了高OER和OER活性。 文中报道了垂直排列的含氮碳纳米管(VA-NCNTs)可以作为一种非金属电极,发展与铂相比,它具有更好的电催化活性、长期运行稳定性和耐受性。现如今,工程国智能电视的脚步也该跟上了!总结:还是那句话,硬件跑分实际意义并不大,只是由某一个标准下将电视硬件的性能量化而已。 1、界奥件邀系统界面切换流畅性体验在这三款电视中,TCL、暴风智能电视的系统都是基于安卓进行了深度的定制,界面风格优化比较大。针对这几点,花落笔者对这三款电视都做了几个简单的测试。 首先,助中就安卓系统版本而言,暴风55X战警版是安卓4.4.4的系统,而索尼65X9300D和TCLD55A730U均为安卓5.0,也会成为影响应用安装时间的原因。画面你们还能再卡一点么,发展仅仅暴风TV看起来流畅一点。 |
