ESI针对22个专业领域,华东通过论文数、华东论文被引频次、论文篇均被引频次、高被引论文、热点论文和前沿论文等6大指标,从各个角度对国家/地区科研水平、机构学术声誉、科学家学术影响力以及期刊学术水平进行全面衡量。
大动d)300WXe灯照射下Sr2MgSi2O7:Eu2+,Dy3+的光电流密度。【小结】综上所述,自主研究人员首次利用长余辉材料Sr2MgSi2O7:Eu2+,Dy3+实现全天候光催化制氢,并获得了5.18%的较高STH转化效率。
硅酸盐长余辉材料具有发光强度高、无人卫队余辉时间长、化学稳定性好、成本低等优点,适合用作光催化剂。由于Eu2+(198pm)、机护Dy3+(192μm)和Sr2+(195pm)的半径相似,机护前两种离子可以完全取代Sr2+,同时在合成过程中保持其晶胞尺寸,在掺杂的稀土离子周围形成可以存储电子的氧空位。华东图4光催化过程可能的机理a)能级和光生电子转移过程图。
大动b)Sr2MgSi2O7:Eu2+,Dy3+的激发和发射光谱。自主这一特殊的光催化活性归因于独特的载流子传输路径和大量的晶格缺陷。
【团队在该领域工作汇总】(1)GuanweiCui,XiuliYang,YujiaZhang,YaqiFan,PingChen,HongyuCui,YanLiu,XifengShi,QiaoyanShang,andBoTang*,Round-the-clockPhotocatalyticHydrogenProductionwithHighEfficiencybyaLongAfterglowMaterial.Angew.Chem.Int.Ed.,Accepted,DOI:10.1002/anie.201810544.(2)GuanweiCui,WenWang,MingyueMa,JunfengXie,XifengShi,NingDeng,JianpingXin,andBoTang*,无人卫队IR-DrivenPhotocatalyticWaterSplittingwithWO2-NaxWO3HybridConductorMaterial.NanoLett.,2015,15,7199-7203.(3)Guan-weiCui,Wei-liangWang,Ming-yueMa,MingZhang,Xin-yuanXia,Feng-yunHan,Xi-fengShi,Ying-qiangZhao,Yu-BinDongandBoTang*.RationaldesignofcarbonandTiO2assemblymaterials:coveredorstrewn,whichisbetterforphotocatalysis?Chem.Commun.,2013,49,6415-6417.(4)Xi-FengShi,Xin-YuanXia,Guan-WeiCui*,NingDeng,Ying-QiangZhao,Lin-HaiZhuo,BoTang*.MultipleexcitongenerationapplicationofPbSquantumdotsinZnO@PbS/grapheneoxideforenhancedphotocatalyticactivity.Appl.Catal.B:Environ.,2015,163,123-128.(5)YingqiangZhao,Ming-YueMa,Guan-WeiCui*,Xi-FengShi,Feng-YunHan,Xin-YuanXia,BoTang*.ANewStrategytoRealizeEfficientSpacialChargeSeparationonCarbonaceousPhotocatalyst. Carbon,2014,73,333-337.(6)JunfengXie*,JianpingXin,RuoxingWang,XiaodongZhang,FengcaiLei,HaichaoQu,PinHao,GuanweiCui,BoTang*andYiXie*.Sub-3nmPoresinTwo-DimensionalNanomeshPromotingtheGenerationofElectroactivePhaseforRobustWaterOxidation. NanoEnergy,2018,53,74-82.(7)JunfengXie*,HaichaoQu,FengcaiLei,XuPeng,WeiweiLiu,LiGao,PinHao,GuanweiCuiandBoTang*.PartiallyAmorphousNickel-IronLayeredDoubleHydroxideNanosheetArraysforRobustBifunctionalElectrocatalysis.J.Mater.Chem.A,2018,6,16121-16129.(8)QianWang*,BohuiDong,YingqiangZhao,FangHuang,JunfengXie,GuanweiCui,BoTang*.Controllablegreensynthesisofcrassulapeforata-likeTiO₂withhighphotocatalyticactivitybasedondeepeutecticsolvent(DES).Chem.Eng.J.,2018,348,811-819.(9)XifengShi,JiahuiZhang,GuanweiCui*,NingDeng,WenWang,QianWang,andBoTang*.PhotocatalyticH₂evolutionimprovementforHfree-radicalstabilizationbyelectrostaticinteractionofaCu-BTCMOFwithZnO/GO.NanoRes.,2018,11,979-987.(10)RanWang,GangLi*,AndongZhang,WenWang,GuanweiCui,Jian-FengZhao,ZhiqiangShi*andBoTang*.EfficientEnergy-LevelModificationofNovelPyran-annulatedPeryleneDiimidesforPhotocatalyticWaterSplitting.Chem.Commun.,2017,53,6918-6921.(11)JunfengXie,JianpingXin,GuanweiCui,XinxiaZhang,LijieZhou,YunlongWang,WeiweiLiu,CaihuaWang,MeiNing,XinyuanXia,YingqiangZhaoandBoTang*.Verticallyalignedoxygen-dopedmolybdenumdisulfidenanosheetsgrownoncarbonclothrealizingrobusthydrogenevolutionreaction.Inorg.Chem.Front.,2016,3,1160-1166.(12)PinHao,JianTian,YuanhuaSang,Chia-ChiTuan,GuanweiCui,XifengShi,CPWong,BoTang*andHongLiu*.1DNi-CoOxideandSulfideNanoarray/CarbonAerogelHybridNanostructuresforAsymmetricSupercapacitorswithHighEnergyDensityandExcellentCycleStability.Nanoscale,2016,8,16292-16301.(13)YingqiangZhao,FengyunHan,QianWang,Guan-WeiCui*,Xi-FengShi,Xin-YuanXia,JunfengXie,YongLiandBoTang*.Core–ShellCompositesBasedonMultiwalledCarbonNanotubesandCesiumTungstenBronzetoRealizeChargeTransportBalanceforPhotocatalyticWaterOxidation,ChemCatChem,2016,8,624-630.(14)XinyuanXia,NingDeng,GuanweiCui,JunfengXie,XifengShi,YingqiangZhao,QianWang,WenWangandBoTang*.NIRlightinducedH2evolutionbyametal-freephotocatalyst. Chem.Commun.,2015,51,10899-10902(15)Xi-FengShi,NaLi,KeZhao,Guan-WeiCui,Ying-QiangZhao,Ming-YueMa,Ke-HuaXu,PingLi,Yu-BinDong*,BoTang*.Adye-sensitizedFeOOH-CNTphotocatalystwiththreeelectrontransferchannelsregulatedbyhydrogenbonding. Appl.Catal.B:Environ.,2013,136-137,334-340.。
b)用500W高压汞灯照射15min后,机护Sr2MgSi2O7:Eu2+,Dy3+和Sr2MgSi2O7在黑暗条件下制氢量随时间的变化。当贝PadGO支持AI语音控制、华东手势控制、分屏操作等创新功能,可使用手机/平板电脑会员。
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