而在采取獨播策略扶持芒果TV后,添翼2015年元旦獨播的《我是歌手》第三季�,更是把芒果TV客戶端推上了AppStore免費排行榜首位。計劃畢竟湖南衛(wèi)視每年自制的節(jié)目也不足以支撐起一個視頻網(wǎng)站�����。最終�,招章芒果TV不得不陷入拼版權(quán)和燒錢的視頻行業(yè)競爭模式。
獨播戰(zhàn)略難以維系?芒果TV在2014年4月提出了版權(quán)不分銷的獨播策略���,山東生簡各大視頻網(wǎng)站都未能獲得《我是歌手》等節(jié)目2015年的網(wǎng)絡(luò)播放權(quán)�����,山東生簡用戶要想在PC��、手機�����、平板觀看該節(jié)目����,必須登陸芒果TV。不光投資音頻內(nèi)容原創(chuàng)平臺荔枝FM����,大學(xué)智能微投企業(yè)極米科技,還實現(xiàn)了對環(huán)塔汽車?yán)?��、移動互?lián)網(wǎng)音樂社交平臺唱吧等的股權(quán)投資���。
畢竟股市陷入低谷,發(fā)布新三板的流動性也備受質(zhì)疑����,芒果TV此時選擇觀望也在情理之中。
內(nèi)容平臺做硬件是大勢所趨���,添翼但不管是內(nèi)容市場還是硬件市場都已是趨于飽和����,添翼作為互聯(lián)網(wǎng)圈的后來者,芒果TV的機會不多���,更需要謹(jǐn)慎之心和勇者的膽量。6.文章列表1.ExploringHigh-PressureLithiumBerylliumHydrides:ANewChemicalPerspective2.Dye-SensitizedSolarCells3.Areviewonpolymernanofibersbyelectrospinningandtheirapplicationsinnanocomposites4.Ametal-freepolymericphotocatalystforhydrogenproductionfromwaterundervisiblelight5.Piezoelectricnanogeneratorsbasedonzincoxidenanowirearrays6.Areviewofelectrodematerialsforelectrochemicalsupercapacitors7.Semiconductor-basedPhotocatalyticHydrogenGeneration8.TiO2photocatalysisandrelatedsurfacephenomena9.Achemicallyfunctionalizablenanoporousmaterial[Cu-3(TMA)(2)(H2O)(3)](n)10.Multiwfn:Amultifunctionalwavefunctionanalyzer11.LuminescentFunctionalMetal-OrganicFrameworks12.TopologicalinsulatorsinBi2Se3,Bi2Te3andSb2Te3withasingleDiracconeonthesurface13.Blackphosphorusfield-effecttransistors14.Enhancedpower-conversionefficiencyinpolymersolarcellsusinganinverteddevicestructure15.Frictionstirweldingandprocessing16.High-thermoelectricperformanceofnanostructuredbismuthantimonytelluridebulkalloys17.Aggregation-inducedemissionof1-methyl-1,2,3,4,5-pentaphenylsilole18.Aggregation-inducedemission19.Super-hydrophobicsurfaces:Fromnaturaltoartificial20.Exceptionalchemicalandthermalstabilityofzeoliticimidazolateframeworks21.AnataseTiO2singlecrystalswithalargepercentageofreactivefacets22.AdvancedMaterialsforEnergyStorage23.Nitrogen-DopedGrapheneasEfficientMetal-FreeElectrocatalystforOxygenReductioninFuelCells24.Flexiblegraphenefilmsviathefiltrationofwater-solublenoncovalentfunctionalizedgraphenesheets25.Areviewandrecentdevelopmentsinphotocatalyticwater-splittingusingTiO2forhydrogenproduction26.ALargeandPersistentCarbonSinkintheWorldsForests27.Multiferroicmagnetoelectriccomposites:Historicalperspective,status,andfuturedirections28.Three-dimensionalflexibleandconductiveinterconnectedgraphenenetworksgrownbychemicalvapourdeposition29.Evaluationofsolution-processedreducedgrapheneoxidefilmsastransparentconductors30.Synthesisoftetrahexahedralplatinumnanocrystalswithhigh-indexfacetsandhighelectro-oxidationactivity31.Observationofalarge-gaptopological-insulatorclasswithasingleDiracconeonthesurface32.Ageneralstrategyfornanocrystalsynthesis33.Thereductionofgrapheneoxide34.Locallyresonantsonicmaterials35.Aggregation-inducedemission:phenomenon,mechanismandapplications36.ExperimentalRealizationofaThree-DimensionalTopologicalInsulator,Bi2Te337.Graphene-LikeTwo-DimensionalMaterials38.Long-distancequantumcommunicationwithatomicensemblesandlinearoptics39.TopologicalsemimetalandFermi-arcsurfacestatesintheelectronicstructureofpyrochloreiridates40.Self-AssembledGrapheneHydrogelviaaOne-StepHydrothermalProcess41.Bulkmetallicglasses42.Abinitiomodelingofquantumtransportpropertiesofmolecularelectronicdevices43.Shell-isolatednanoparticle-enhancedRamanspectroscopy44.Aggregationandmorphologycontrolenablesmultiplecasesofhigh-efficiencypolymersolarcells45.SynthesisofN-DopedGraphenebyChemicalVaporDepositionandItsElectricalProperties46.MolecularDesignofPhotovoltaicMaterialsforPolymerSolarCells:TowardSuitableElectronicEnergyLevelsandBroadAbsorption47.Surfacemodificationoftitanium,titaniumalloys,andrelatedmaterialsforbiomedicalapplications48.GrapheneAnchoredwithCo3O4NanoparticlesasAnodeofLithiumIonBatterieswithEnhancedReversibleCapacityandCyclicPerformance49.Two-photonpolymerizationinitiatorsforthree-dimensionalopticaldatastorageandmicrofabrication50.CoupledSpinandValleyPhysicsinMonolayersofMoS2andOtherGroup-VIDichalcogenides51.EpidermalElectronics52.Aggregation-InducedEmission:TogetherWeShine,UnitedWeSoar!53.EffectsofF-dopingonthephotocatalyticactivityandmicrostructuresofnanocrystallineTiO2powders54.Graphene-BasedSupercapacitorwithanUltrahighEnergyDensity55.Hydrogenstorageinsingle-walledcarbonnanotubesatroomtemperature56.Greenluminescentcenterinundopedzincoxidefilmsdepositedonsiliconsubstrates57.Semiconductingpi-ConjugatedSystemsinField-EffectTransistors:AMaterialOdysseyofOrganicElectronics58.Intrinsicperoxidase-likeactivityofferromagneticnanoparticles59.Hyperbranchedpolymers:fromsynthesistoapplications60.Graphene-basedsemiconductorphotocatalysts61.UnderstandingTiO2Photocatalysis:MechanismsandMaterials62.SimultaneousEnhancementofOpen-CircuitVoltage,Short-CircuitCurrentDensity,andFillFactorinPolymerSolarCells63.EvolutionofOrganicAerosolsintheAtmosphere64.ValleypolarizationinMoS2monolayersbyopticalpumping65.Large-scalesynthesisofalignedcarbonnanotubes66.GrapheneOxide:Preparation,Functionalization,andElectrochemicalApplications67.AGraphenePlatformforSensingBiomolecules68.Ultrahighstrengthandhighelectricalconductivityincopper69.Onthecontrollablesoft-templatingapproachtomesoporoussilicates70.Colloidalcarbonspheresandtheircore/shellstructureswithnoble-metalnanoparticles71.FabricationandethanolsensingcharacteristicsofZnOnanowiregassensors72.SupercapacitorDevicesBasedonGrapheneMaterials73.CarbonMaterialsforChemicalCapacitiveEnergyStorage74.Principleofequal-channelangularpressingf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招章載流子擴散長度從500nm延伸到2.5微米����。然而由于缺乏高效率、山東生簡低帶隙的混合鈣鈦礦太陽能電池����,全鈣鈦礦基疊層器件的性能被大大限制。
當(dāng)與寬帶隙太陽能電池結(jié)合時�,大學(xué)研究人員更是獲得了效率分別高達(dá)25%的4端和23.1%的2端全鈣鈦礦型多晶薄膜串聯(lián)太陽能電池。發(fā)布而全鈣鈦礦多晶薄膜疊層太陽能電池也具有提供大于30%效率的潛力��。