之后����,家售利用上述納米片作為非均相催化劑來研究4-硝基苯乙烯催化加氫的選擇性。銷申(代表性文獻如下)1.SynthesisofHexagonalClose-PackedGoldNanostructures,Nat.Commun.,2011,2,292.2.SynthesisofAuSquare-LikePlatesfromUltrathinAuSquareSheets:theEvolutionofStructurePhaseandShape,Angew.Chem.Int.Ed.,2011,50,12245.3.Grapheneoxide-templatedsynthesisofultrathinAunanowiresandtadpole-shapedAunanowireswithalternatinghcpandfccdomains,Adv.Mater.,2012,24,979.4.Stabilizationof4Hhexagonalphaseingoldnanoribbons,Nat.Commun.,2015,6,7684.5.Surfacemodification-inducedphasetransformationofhexagonalclose-packedgoldsquaresheets,Nat.Commun.,2015,6,6571.6.SynthesisofUltrathinFace-Centered-CubicAu@PtandAu@PdCore–ShellNanoplatesfromHexagonal-Close-PackedAuSquareSheets,Angew.Chem.Int.Ed.,2015,54,5672.7.Synthesisof4H/fccnoblemultimetallicnanoribbonsforelectrocatalytichydrogenevolutionreaction,J.Am.Chem.Soc.,2016,138,1414.8.Crystalphase-controlledsynthesis,propertiesandapplicationsofnoblemetalnanomaterials,Chem.Soc.Rev.,2016,45,63.9.TemplateSynthesisofNobleMetalNanocrystalswithUnusualCrystalStructuresandTheirCatalyticApplications,Acc.Chem.Res.,2016,49,284110.Epitaxialgrowthofunusual4HhexagonalIr,Rh,Os,RuandCunanostructureson4HAunanoribbons,Chem.Sci.,2017,8,795.11.Facilesynthesisofgoldnanomaterialswithunusualcrystalstructures,Nat.Protocols,2017,12,2367.12.High-YieldSynthesisofCrystal-Phase-Heterostructured4H/fccAu@PdCore–ShellNanorodsforElectrocatalyticEthanolOxidation,Adv.Mater.,2017,29,1701331.13.Crystalphase-basedepitaxialgrowthofhybridnoblemetalnanostructureson4H/fccAunanowires,Nat.Chem.,2018,10,456.14.Two-dimensionalmetalnanomaterials:synthesis,properties,andapplications,Chem.Rev.,2018,118,6409.15.SynthesesandPropertiesofMetalNanomaterialswithNovelCrystalPhases,Adv.Mater.,2018,30,1707189.16.One-PotSynthesisofWell-CrystallineLotusThalamus-ShapedPt-NiAnisotropicSuperstructuresforHighlyEfficientElectrochemicalHydrogenEvolution,Adv.Mater.,2018,30,1801741.本文由材料人編輯部abc940504編譯整理�����。擬退d,e)分別對應c圖中紅色和綠色區(qū)域的FFT圖像���。
文獻鏈接:市山司注Amorphous/CrystallineHetero-PhasePdNanosheets:One-PotSynthesisandHighlySelectiveHydrogenationReaction?(Adv.Mater.,2018,DOI:10.1002/adma.201803234)【通訊作者簡介】張華�����,市山司注南洋理工大學材料科學與工程學院教授����。新型異相結(jié)構(gòu)納米材料的合成將在催化、東受電光學�����、電子�����、磁學���、力學等領(lǐng)域得到廣泛的應用��。
家售f)樣品1中鈀納米片的SAED圖像�。
銷申圖2不同結(jié)晶度的無定形/結(jié)晶異相結(jié)構(gòu)鈀納米片的結(jié)構(gòu)表征a-d)樣品2-5中鈀納米片的DF-STEM圖像。擬退(c)通道限制的彎液面自組裝法的示意圖��。
市山司注材料人投稿以及內(nèi)容合作可加編輯微信:cailiaokefu���。為此����,東受電許多研究組開發(fā)了一系列基于涂布技術(shù)的大規(guī)模組裝策略��,東受電如浸涂��、刮涂�、旋涂等,實現(xiàn)了有機半導體單晶材料的大面積陣列化生長�����,并成功展示了其在高性能集成器件中的應用。
這避免了晶體在此處的多倍成核行為�,家售保證了在后續(xù)晶體生長中取向的一致性。銷申相關(guān)成果以Channel-restrictedMeniscusSelf-assemblyforUniformlyAlignedGrowthofSingle-CrystalArraysofOrganicSemiconductors為題發(fā)表在MaterialsToday上����。