在KooYun-mo看来VR的应用很广泛，数字术进工厂还没有完工时就可以用VR展示给潜在投资者看。

带有小带隙的各种半导体与WO 3相结合，传感以改善其光吸收并操纵电荷载流子动力学。由于光反射减少和光传输路径增加，器I悄悄具有多孔形态的纳米结构光电极具有增强的光吸收。

具有特殊纳米结构的形貌设计可以增强光吸收，步正缩短载流子传输距离并使晶面具有高催化活性。该技术测试系统在一定频率范围内的阻抗，改变因此可以揭示系统的频率响应，包括能量存储和耗散特性。已经预测WO 3在用作水氧化的光阳极时是热力学稳定的，数字术进因为其阳极分解电位比OER电位高1.1V。

传感e）未掺杂和Ti掺杂的WO 3的示意性带位置。图二、器I悄悄各种纳米结构WO3阵列的扫描电子显微镜（SEM）图像a）纳米线。

近期代表性论文：步正FengrenCao,LinxingMeng,MengWang,WeiTianandLiangLi,GradientEnergyBandDrivenHigh-PerformanceSelf-PoweredPerovksite/CdSPhotodetector.Adv.Mater.,31,1806725,2019.FengrenCao,WeiTian,LinxingMeng,MengWangandLiangLi,Ultrahigh-PerformanceFlexibleandSelf-PoweredPhotodetectorswithFerroelectricP(VDF-TrFE)/PerovskiteBulkHeterojunction,Adv.Funct.Mater.,1808415,2019.DOI:10.1002/adfm.201808415.HaoxunSun,YuZhou,YuXin,KaimoDeng,LinxingMeng,JieXiongandLiangLi,CompositionandEnergyBand-ModifiedCommercialFTOSubstrateforInSituFormedHighlyEfficientElectronTransportLayerinPlanarPerovskiteSolarCells,Adv.Funct.Mater.,29,1808667,2019.KaimoDeng,ZhongzeLiu,MinWangandLiangLi,NanoimprintedGrating-EmbeddedPerovskiteSolarCellswithImprovedLightManagement,Adv.Funct.Mater.,1900830,2019.DOI:10.1002/adfm.201900830.YidanWang,WeiTian,ChengChen,WeiweiXuandLiangLi,TungstenTrioxideNanostructuresforPhotoelectrochemicalWaterSplitting:MaterialEngineeringandChargeCarrierDynamicManipulation,Adv.Funct.Mater.,1809036,2019.DOI:10.1002/adfm.201809036. JiangfengNi,ShidongFu,YifeiYuan,LuMa,YuJiang,LiangLiandJunLu,BoostingSodiumStorageinTiO2NanotubeArraysThroughSurfacePhosphorylation,Adv.Mater.,30,1704337,2018. HaoxuanSun,WeiTian,FengrenCao,JieXiongandLiangLi,Ultra-HighPerformanceSelf-PoweredFlexibleDouble-TwistedFibrousBroadbandPerovskitePhotodetector,Adv.Mater.,30,1706986,2018. HaoxuanSun,KaimoDeng,YayunZhu,MinLiao,JieXiong,YanrongLiandLiangLi,NovelConductiveMesoporousLayerwithDynamicTwo-StepDepositionStrategyBoostsEfficiencyofPerovskiteSolarCellsto20%,Adv.Mater.,30,1801935,2018.LinxingMeng,DeweiRao,WeiTian,FengrenCao,XiaohongYanandLiangLi,SimultaneousManipulationofO-DopingandMetalVacancyinAtomicallyThinZn10In16S34NanosheetArraystowardImprovedPhotoelectrochemicalPerformance,Angew.Chem.Int.Ed.,57,16882,2018.JiangfengNiandLiangLi,Self-SupportedThree-DimensionalArrayElectrodesforSodiumMicrobatteries,Adv.Funct.Mater.,28,1704880,2018.YanmingFu,FengrenCao,FangliWu,ZhidanDiao,JieChen,ShaohuaShenandLiangLi,Phase-ModulatedBandAlignmentinCdSNanorod/SnSxNanosheetHierarchicalHeterojunctionstowardEfficientWaterSplitting,Adv.Funct.Mater.,28,1706785,2018.JiangfengNi,YuJiang,FeixiangWu,JoachimMaier,YanYuandLiangLi,RegulationofBreathingCuONanoarrayElectrodesforEnhancedElectrochemicalSodiumStorage,Adv.Funct.Mater.,28,1707179,2018.ChuanhuiGong,KaiHu,XuepengWang,PeihuaWangyang,ChaoyiYan,JunweiChu,MinLiao,LipingDai,TianyouZhai,ChaoWang,LiangLiandJieXiong,2DNanomaterialArraysforElectronicsandOptoelectronics,Adv.Funct.Mater.,28,1706559,2018.本文由材料人编辑部luna编译供稿，步正材料牛整理编辑。

耦合WO 3利用具有合适的能带结构的半导体制造II型，改变Z方案和p-n异质结可以促进载流子传输并减轻复合。包含3维示意图绘制，数字术进矢量图绘制等。

定价为1000，传感1600，2200三种等级，根据制图难度评判定价。无需掌握绘图、器I悄悄视频制作技能，即可拥有想要的图片。

4、步正以上图形绘制相关软件个性化培训，包含1对1、小班培训，灵活安排。包含origin图绘制，改变XRD、XPS等数据处理及图形绘制。