基本科学指标数据库（EssentialScienceIndicators，济南将从家降0家建工集团健康集团简称ESI）是由世界著名的学术信息出版机构美国科技信息所（ISI）于2001年推出的衡量科学研究绩效、济南将从家降0家建工集团健康集团跟踪科学发展趋势的基本分析评价工具，是基于汤森路透WebofScience?（SCIE/SSCI）所收录的全球12000多种学术期刊的1000多万条文献记录而建立的计量分析数据库，ESI已成为当今世界范围内普遍用以评价高校、学术机构、国家/地区国际学术水平及影响力的重要评价指标工具之一。

【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*，国企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.。成立图2Sr2MgSi2O7:Eu2+,Dy3+的光学性质和光电响应表征a)Sr2MgSi2O7:Eu2+,Dy3+和Sr2MgSi2O7的紫外/可见吸收光谱。

b)用500W高压汞灯照射15min后，济南将从家降0家建工集团健康集团Sr2MgSi2O7:Eu2+,Dy3+和Sr2MgSi2O7在黑暗条件下制氢量随时间的变化。国企c)光催化反应前Dy3d和Dy4d的XPS光谱。由于Eu2+(198pm)、成立Dy3+(192μm)和Sr2+(195pm)的半径相似，成立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。

济南将从家降0家建工集团健康集团d)光催化反应后Dy3d和Dy4d的XPS光谱。【小结】综上所述，国企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。

目前承担国家重点基础研究发展计划(973)、成立国家自然科学基金重点项目、国家自然科学基金科学仪器基础研究专项等多项国家及省部级科研项目。

欢迎大家到材料人宣传科技成果并对文献进行深入解读，济南将从家降0家建工集团健康集团投稿邮箱[email protected]。可爱宠物头像猫咪，国企一只可爱的小猫咪趴在地上，眼睛看着前方，好像在思考什么。

这样的猫咪真的是太可爱了，成立萌萌的样子让人忍不住想要捏一捏它的小脸蛋蛋据中国移动研究院消息，济南将从家降0家建工集团健康集团近日，济南将从家降0家建工集团健康集团中国移动联合产业合作伙伴完成面向云XR（ExtendedReality）及裸眼3D等亚运高清沉浸业务的5G-Advanced新技术应用，通过5G-A网络基于业务智能感知的大带宽低时延保障能力，打造3D沉浸式亚运赛事观看新体验。

据介绍，国企咪咕移动云VR业务平台面向亚运会定制XR观赛场景，用XR科技观赛实现多场比赛一屏尽览，打造VR电竞、VR赛事直播、裸眼3D看亚运等新业务。▲图源中国移动研究院，成立下同▲咪咕移动云VR观赛实现巨幕多赛同看在本次5G-A技术应用中，成立针对室内多用户多业务并发观赛以及室外车载移动性观赛两大典型场景，面向亚运VR电竞游戏（4K60帧）、亚运赛事VR直播（4K60帧）、裸眼3D视频观看（2.5K60帧）等大带宽高实时业务并发场景，实现多用户多业务并发场景下20ms业务帧级无线传输时延，以及125M帧级保障速率。