我赶紧打电话给物业的同志,读物打工请他们把它带到物业办公室,在里面安心生产。
设计风格独特,亲戚简约而不失高雅,线条流畅且富有艺术气息简单内敛的造型设计,省房流动着不凡而坚毅的生命力,用最简单的设计传达出最舒适的感受。
美,租要住精于技,匠于心,将寝具艺术做到极致,是艾蒙蕾诗矢志不渝的追求。选料精致考究,读物打工做工精细,辅以流畅的线条,独创清新、柔美、俊朗之格调,将高科技与美学作精彩的演绎,尽展精致悦己生活理念。从配色到功能,亲戚再到使用场景,颠覆了传统寝具的刻板印象。
艾蒙蕾诗顺应了这一品质与颜值并举的精致悦己趋势,省房携手意大利设计大师,省房打破寝具千篇一律的面孔,以独树一帜的美学风格,满足消费者高端审美的个性需求。如今,租要住光有品质显然远远不能满足消费者的需求,在同等材质下,高颜值、好设计成为人们选择寝具产品的重要因素。
艾蒙蕾诗与用户之间不仅仅是条文契约,读物打工更是一种人与人之间的信任和关怀。
艾蒙蕾诗设计团队认为,亲戚真正的设计不是方案和产品的堆砌,而是细节处设身处地为用户打造舒适有度的生活环境,提升其生活品质。【图文导读】图一、省房温度调控的重构工程Figure1a)ChronopotentiometricmeasurementsofNiMoO4pre-catalystandnickelfoam(NF)at10mAcm-2in1MKOHwithsolutiontemperaturesofT.Indetail,theinitial0-12hstagewastestedat25.0℃,andthenext12-48hstagewastestedatT℃(T=25.0,32.4,39.6,51.9),andthefinal48-60hstagewastestedat25.0℃.Thefinallyobtainedcatalystsaredenotedascat.-Tforsubsequentperformanceevaluation.ForNF-Tsample,Tis51.9.b)Schematicdiagramforthetemperature-dependentpotentialcurve,whichassociateswiththethermal-inducedreconstructionresults.ThereducedpotentialΔVisbasedonthedifferencevalueofpotentialsat60and12hin(a).c-e)LSVcurves,thecorrespondingoverpotentials,andTafelvaluesofcat.-Ttestedat25.0℃,respectively.图二、省房非原位物相/微结构表征及原位高低温拉曼表征Figure2a-d)HRTEMande-h)HAADF-STEMimagesandthecorrespondingelementalmappingsofcat.-T(T=25.0,32.4,39.6,51.9).Thewhitedottedlinesin(a-c)representtheobviouslyobservedreconstructionboundary.i)Insitulow-temperatureRamanspectraandthecorrespondingchronopotentiometriccurveofNiMoO4pre-catalystwiththeintervaltimeof200sin1MKOHat25.0℃.j)Insituhigh-temperatureRamanspectraandthecorrespondingchronopotentiometriccurveofNiMoO4pre-catalystwiththeintervaltimeof80sin1MKOHat52.0℃.图三、催化剂重构层特征-重构程度之间的关系Figure3a)HAADF-STEMimageofNiMoO4pre-catalystafterchronopotentiometricmeasurementat10mAcm-2at25.0℃for12h.b)HAADF-STEMimageofNiMoO4pre-catalystafterchronopotentiometricmeasurementat10mAcm-2at25.0℃for12handthenrisingto51.9℃.c)HAADF-STEMimageandthecorrespondingelementalmappingsofsamplein(b),showingthedissolutionofMospeciesonthesurface.d)SchematicdiagramforthetworeconstructionresultsofNiMoO4pre-catalystunderlow-/high-temperatureelectro-oxidationconditions.图四、重构顺序工程及晶界-氧空位共同作用Figure4a)Chronopotentiometricmeasurementsat10mAcm-2in1MKOH.Forinsitureconstruction,theNiMoO4pre-catalystwasfirstlymeasuredat51.9℃andthenat25.0℃,andtheobtainedcatalystiscalledasinsitucatalyst.Forexsitureconstruction,theNiMoO4wasfirstlysoakedin1MKOHat51.9℃andthenmeasuredat25.0℃,andtheobtainedcatalystiscalledasexsitucatalyst.b-e)HRTEMimagesandthecorrespondingfastFouriertransformpatternsof(b,c)insitucatalystand(d,e)exsitucatalyst.f)O1sXPSspectraofin/exsitucatalysts.g)ModelofNiOOH(011)-NiOOH(011)twinboundarystructurewithOvacancy,showingtheOvacancysiteintheboundaryregion.h-j)DFT-calculatedmodelswiththeoptimalstructuresforintermediateproducts.k)Freeenergyofeachreactionsteponsixdifferentmodels,consideringtheeffectsofboundary,O/OHvacanciesonOER.l)PDOScalculationofdbandofNi-2atomneartheOvacancysiteintheboundaryregioninboundarywithVOmodel.Inset:thepartialchargedensitydrawnfrom-7to-6.8eVwithiso-surfacevalueof0.025e-bohr-3,correspondingtothePDOSpeakat-6.9eV. 图五、全重构催化剂的OER/电解水性能评估Figure5a,b)Chronopotentiometricmeasurementofcat.-51.9andNiFe-LDHcatalyststestedat10mAcm-2in1MKOHat(a)25.0and(b)51.9℃.c)SchematicdiagramofNPs-interconnectedstructurewithopen3Dpores.d-g)RepresentativeHAADF-STEMimagesviaelectrontomographyofsinglecat.-51.9nanowireafterlong-termstabilitymeasurementin(b).h)Theconventionalcondition(almostatroomtemperature)hasacertaingapwiththeindustrialone(at50-80℃).i)SchematicdiagramofMoO2-Niarraysonthenickelfoam.j)ChronopotentiometricmeasurementofMoO2-Niheterostructurednanowirearraysat10mAcm-2in1MKOHat51.9℃.k)Durabilityevaluationofhigh-temperaturewaterelectrolysisbasedoncat.-51.9(anode)andMoO2-Ni(cathode)arraysystemat10mAcm-2in1MKOHat51.9℃.【小结】本文发现在室温和工业温度下OER期间钼酸盐前催化剂的不同重构现象,前者仅能进行表面重构,后者可以实现全重构。
通过原位高/低温拉曼表征揭示了重构过程中的动态形貌/相结构演变过程和真实催化物种,租要住并采用电子断层成像对重构催化剂的立体结构进行了多角度表征。长期从事纳米能源材料与器件研究,读物打工发表SCI论文400余篇,包括Nature及其子刊12篇,影响因子10.0以上的论文100余篇。
在材料学、亲戚晶体学和电子显微学领域国际著名期刊包括Science、亲戚NatureNanotechnology、NatureMaterials、Ultramicroscopy、ActaCrystallography等发表高水平论文100余篇,目前的研究方向为电池、热电材料、光伏材料和储能材料以及在原位中的应用。省房武汉理工大学纳微结构研究中心(NRC)在材料结构分析表征方面引进了具备功能齐全的大型仪器设备。
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