美,北管精于技���,匠于心����,將寢具藝術做到極致,是艾蒙蕾詩矢志不渝的追求��。選料精致考究�,道工做工精細,輔以流暢的線條����,獨創(chuàng)清新、柔美��、俊朗之格調(diào)�����,將高科技與美學作精彩的演繹�����,盡展精致悅己生活理念��。從配色到功能�����,期項再到使用場景���,顛覆了傳統(tǒng)寢具的刻板印象�����。
艾蒙蕾詩順應了這一品質(zhì)與顏值并舉的精致悅己趨勢�����,目干攜手意大利設計大師����,目干打破寢具千篇一律的面孔,以獨樹一幟的美學風格��,滿足消費者高端審美的個性需求���。如今���,線及光有品質(zhì)顯然遠遠不能滿足消費者的需求,在同等材質(zhì)下��,高顏值��、好設計成為人們選擇寢具產(chǎn)品的重要因素����。
艾蒙蕾詩與用戶之間不僅僅是條文契約,貫通更是一種人與人之間的信任和關懷���。
艾蒙蕾詩設計團隊認為�����,中國支線主體真正的設計不是方案和產(chǎn)品的堆砌�����,而是細節(jié)處設身處地為用戶打造舒適有度的生活環(huán)境��,提升其生活品質(zhì)�。【圖文導讀】圖一�、石化溫度調(diào)控的重構工程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.圖二�、石化非原位物相/微結構表征及原位高低溫拉曼表征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℃.圖三、催化劑重構層特征-重構程度之間的關系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.圖四�、重構順序工程及晶界-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.?圖五、全重構催化劑的OER/電解水性能評估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℃.【小結】本文發(fā)現(xiàn)在室溫和工業(yè)溫度下OER期間鉬酸鹽前催化劑的不同重構現(xiàn)象����,前者僅能進行表面重構,后者可以實現(xiàn)全重構����。
通過原位高/低溫拉曼表征揭示了重構過程中的動態(tài)形貌/相結構演變過程和真實催化物種,皖東皖北并采用電子斷層成像對重構催化劑的立體結構進行了多角度表征���。長期從事納米能源材料與器件研究�����,北管發(fā)表SCI論文400余篇��,包括Nature及其子刊12篇�����,影響因子10.0以上的論文100余篇�����。
在材料學����、道工晶體學和電子顯微學領域國際著名期刊包括Science、道工NatureNanotechnology�、NatureMaterials、Ultramicroscopy���、ActaCrystallography等發(fā)表高水平論文100余篇����,目前的研究方向為電池�����、熱電材料�����、光伏材料和儲能材料以及在原位中的應用。期項武漢理工大學納微結構研究中心(NRC)在材料結構分析表征方面引進了具備功能齊全的大型儀器設備����。