常见的食物过敏源，广东包括鸡肉，牛肉、小麦和玉米。

茂名2015年获何梁何利基金科学与技术进步奖。文献链接：市电售电市场顺利https://doi.org/10.1021/acs.nanolett.0c00348二、市电售电市场顺利江雷江雷，1965年3月生吉林长春，无机化学家、纳米材料专家，中国科学院院士 、发展中国家科学院院士、美国国家工程院外籍院士  ，中国科学院化学研究所研究员、博士生导师，北京航空航天大学化学与环境学院院长 。

白区干净的石墨烯薄膜是用于包括透明电极和外延层在内的应用的有前途的材料。此外，加快交易研究人员展示了在金属箔上分层石墨烯合成的批量生产方法，证明了其技术可扩展性。姚建年的主要研究工作是通过分子设计和分子间弱相互作用的控制，培育制备有机纳米/亚微米结构，培育研究这些纳米/亚微米结构的光物理和光化学性能，并在此基础之上开展一些应用基础研究。

获日中科技交流协会有山兼孝纪念研究奖(1992)、主体香港求是科技基金会杰出青年学者奖(1997)、主体中国分析测试协会科学技术奖一等奖(2005)、教育部高等学校科学技术奖自然科学一等奖(2007)、国家自然科学二等奖(2008, 2017)、中国化学会-阿克苏诺贝尔化学奖(2012)、宝钢优秀教师特等奖(2012)、日本化学会胶体与界面化学年会Lectureship Award(2016)、北京大学方正教师特别奖(2016)、北京市优秀教师(2017)、ACS Nano LectureshipAward(2018)等。姚建年院士在有机功能纳米结构的制备及其性能研究，促进基于分子设计的有机纳米结构的形貌调控，促进液相胶体化学反应法对低维结构形成动力学过程的调控，有机纳米结构的特异光物理和光化学性能研究等多方面取得了卓越的成就。

1997年首批入选百、电力千、万人才工程第一、二层次。

近期代表性成果：开展1、开展Angew: 调节单原子掺杂二氧化钛中晶格氧的电荷转移以HER中科院化学研究所姚建年院士和北京交通大学王熙教授分别以TM1/TiO2和HER为模型催化剂和模型反应，系统地研究了催化作用下的电荷转移。广东(e-f)WS2/CsPbBr3-vdWH平面光电探测器的光学显微照片和假彩色扫描电镜图像。

  目前，茂名实验室主要开展以下三方面研究：茂名三代半导体纳米器件中的压电（光）电子学效应新型微纳光电器件触感电子学与智能机器人课题组近两年在该领域发表的主要论文汇总：Piezotronicsandpiezo-phototronicsofthirdgenerationsemiconductornanowires,ChemicalReviews,2019,119,9303.Piezo-PhototronicEffectEnhancedEfficientFlexiblePerovskiteSolarCells,ACSNano,2019,134,4507.ControllableGrowthofAlignedMonocrystallineCsPbBr3MicrowireArraysforPiezoelectric-inducedDynamicModulationofSingle-Mode-Lasing,AdvancedMaterials,2019,31,1900647.DynamicallyModulatedGaNWhisperingGalleryLasingModeforStrainSensor,AdvancedFunctionalMaterials,2019,Controlledfabrication,lasingbehaviorandexcitonicrecombinationdynamicsinsinglecrystalCH3NH3PbBr3perovskitecuboids,ScienceBulletin,2019,64,698.AchievingHigh-resolutionPressureMappingviaFlexibleGaN/ZnONanowireLEDsArraybyPiezo-phototronicEffect,NanoEnergy,2019,58,633.PiezophotonicEffectBasedonMechanoluminescentMaterialsforAdvancedFlexibleOptoelectronicApplications,NanoEnergy,NGPTspecialissue,2019,55,389.Unveilingtheinterlayerelectrontransportanditsinfluenceonthewholeelectricpropertiesofblackphosphorus,ScienceBulletin,2019,64,254.DynamicRegulatingofSingle-Mode-LasinginZnOMicrocavitybyPiezoelectricEffect,MaterialsToday,2018,24,33.FlexiblePhotodetectorArraysBasedonPatternedCH3NH3PbI3-xClxPerovskiteFilmforReal-timePhotosensingandImaging,AdvancedMaterials,2018,30,1805913.Recentprogressinflexiblepressuresensorsarrays:fromdesigntoapplications,JournalofMaterialsChemistryC,2018,6,11878.ZnOnanowirebasedCIGSsolarcellanditsefficiencyenhancementbythepiezo-phototroniceffect,NanoEnergy,2018,49,508.In2O3NanowiresField-EffectTransistorswithSub-60mV/decSubthresholdSwingStemmingfromNegativeCapacitanceandtheirLogicApplications,ACSNano,2018,12,9608.Progressinpiezotronicandpiezo-phototroniceffectoftwo-dimensionalmaterials,2DMater,2018,5,042003.LargeandUltra-StableAll-InorganicCsPbBr3MonocrystallineFilms:Low-TemperatureGrowthandApplicationforHigh-PerformancePhotodetectors,AdvancedMaterials,2018,30,1802110.PiezotronicEffectTuningonZnOMicrowireWGMLasingMode,ACSNano,2018,12,11899.PiezophototroniceffectenhancedphotoresponseoftheflexibleCIGSheterojunctionphotodetectors,AdvncedFunctionalMaterials,2018,28,1707311.Piezo-phototronicEffectModulatedDeepUVPhotodetectorBasedonZnO-Ga2O3HeterojuctionMicrowire,AdvancedFunctionMaterials,2018,28,1706379.课题组相关领域论文推荐：压电（光）电子学：High-resolutionelectroluminescentimagingofpressuredistributionusingapiezoelectricnanowireLEDarray,NaturePhotonics,2013,7,752-758EnhancedEmissionIntensityofVerticalAlignedFlexibleZnONanowire/p-PolymerHybridizedLEDArraybyPiezo-phototronicEffect,NanoEnergy,2015,14,364-371.EnhancingLightEmissionofZnO-Nanofilm/Si-MicropillarHeterostructureArraysbyPiezo-PhototronicEffect,Mater.2015,27,4447.Piezo-phototronicenhancedUVsensingbasedonananowirephotodetectorarray,Mater.2015,27,7963EnhancingPhotoresponsivityofSelf-AlignedMoS2Field-EffectTransistorbyPiezo-PhototronicEffectfromGaNNanowire,ACSNano,2016,10,7451.EnhancedperformancesofflexibleZnO/perovskitesolarcellsbypiezo-phototronicseffect,NanoEnergy,2016,23,27.FlexibleLEDArraysMadeofTransferredSi-Microwires-ZnO-NanofilmwithPiezo-PhototronicEffectEnhancedLighting,ACSNano,2017,11,3883.Piezo-phototronicEffectModulatedDeepUVPhotodetectorBasedonZnO-Ga2O3HeterojuctionMicrowire,AdvancedFunctionMaterials,2018,28,1706379.AchievingHigh-resolutionPressureMappingviaFlexibleGaN/ZnONanowireLEDsArraybyPiezo-phototronicEffect,NanoEnergy,2019,58,633.新型微纳器件：MoS2NegativeCapacitanceFieldEffectTransistorswithSubthresholdSwingbelowthePhysicsLimit,AdvancedMaterials,2018,30,1800932.In2O3NanowiresField-EffectTransistorswithSub-60mV/decSubthresholdSwingStemmingfromNegativeCapacitanceandtheirLogicApplications,ACSNano,2018,12,9608.PiezotronicEffectTuningonZnOMicrowireWGMLasingMode,ACSNano,2018,12,11899.TunabletribotronicdualgatelogicdevicebasedonMoS2andblackphosphorustransistors,AdvancedMaterials,2018,30,1705088.FlexiblePhotodetectorArraysBasedonPatternedCH3NH3PbI3-xClxPerovskiteFilmforReal-timePhotosensingandImaging,AdvancedMaterials,2018,30,1805913.DynamicRegulatingofSingle-Mode-LasinginZnOMicrocavitybyPiezoelectricEffect,MaterialsToday,2018,24,33.传感与触感电子学：DynamicTriboelectrification-InducedElectroluminescenceanditsUseinVisualizedSensing,Mater.2016,28,6656.Self-poweredHigh-resolutionandPressure-sensitiveTriboelectricSensorMatrixforReal-timeTactileMapping,Mater.,2016,28,2896.FullDynamic-RangePressureSensorMatrixBasedonOpticalandElectricalDual-ModeSensing,Mater.,2017,29,1605817.DetectionofNon-jointAreasTinyStrainandAnti-InterferenceVoiceRecognitionbyMicro-crackedMetalThinFilm,NanoEnergy,2017,34,578.HighlyStretchableTransparentSelfpoweredTriboelectricTactileSensorwithMetallizedNanofibersforWearableElectronics,AdvancedMaterials,2018,30.SkininspiredHighlyStretchableandConformableMatrixNetworksforMultifunctionalSensing,NatureCommunications,2018,9,244.。市电售电市场顺利(d)组装好的WS2/CsPbBr3-vdWH的光学显微照片（表面覆盖有用于电子束曝光的PMMA）。

白区(f)不同光强下的I-V曲线。加快交易(g-h)纯WS2器件的结构示意图和能带图。