并且不需要给龙猫洗澡，旧闻给它准备浴沙让它自己洗就行。

课题组公众号：重看组建GTaoLab）3.部分相关文献：重看组建Zeng,S.Pian,M.Su,X.Liu,M.Wu,M.Chen,Z.Wang,Y.Xiang,J.Wu,M.Zhang,Q.Cen,Y.Tang,X.Zhou,Z.Huang,R.Wang,A.Tunuhe,X.Ma,Z.Xia,M.Tian,L.Yang,QYang,M.Chen,J.Zhou,H.Zhou,X.Li,Y.Ma*,G.Tao*,Hierarchical-morphologymetafabricforscalablepassivedaytimeradiativecooling,Science373,692-696(2021).Ma,J.Ouyang,T.Raza,P.Li,A.Jian,Z.Li,H.Liu,M.Chen,X.Zhang,L.Qu*,MTian*,G.Tao*,Flexibleall-textiledualtactile-tensionsensorsformonitoringathleticmotionduringTaekwondo,NanoEnergy105941(2021).Wang,C.Fu,R.Wang,G.Tao*,ZXia*,High-resiliencecottonbaseyarnforanti-wrinkleanddurableheat-insulationfabric,Compos.B.Eng.108663(2021)He,Y.Hou,C.Yi,N.Li,F.Sui,B.Yang,G.Gu,W.Li,Z.Wang,Y.Li,G.Tao*,L.Wei*,C.Yang*,M.Chen*,High-performancezero-standby-power-consumption-under-bendingpressuresensorsforartificialreflexarc.NanoEnergy 104743(2020).Zhao,R.Hu,X.Zhang,X.Qi,Q.Fan,M.Tian*,G.Tao*,L.Qu*,Softbimorphactuatorwithreal-timemultiplexingmotionperception,NanoEnergy104926(2020).Hu*,J.Song,Y.Liu,W.Xi,Y.Zhao,X.Yu,Q.Cheng,G.Tao*,XLuo*,Machinelearning-optimizedtammtmitterforhigh-performancethermophotovoltaicsystemwithdetailedbalanceanalysis,NanoEnergy72,104687(2020).He,Y.Hou,C.Yi,N.Li,F.Sui,B.Yang,G.Gu,W.Li,Z.Wang,G.Tao*,L.Wei*,C.Yang*,M.Chen*,Tunablepressuresensorswithultrahighsensitivityandwidelinearresponseforartificialreflexarc,NanoEnergy73,104743(2020).Yan,C.Dong,Y.X,S.Jiang,A.Leber,G.Loke,W.Xu,C.Hou,S.Zhou,M.Chen,R.Hu,P.Shum,L.Wei,X.Jia,F.Sorin,X.Tao,G.Tao*,Thermallydrawnadvancedfunctionalfibers:Newfrontierofflexibleelectronics,Mater.Today 35,168-194(2020).Chen,Y.Jiang,N.Guizani,J.Zhou,G.Tao*,J.YinandK.Hwang,LivingwithI-Fabric:Smartlivingpoweredbysensingfabricanddeepanalytics,IEEENetwork34,156-163(2020).Du,J.Ai,X.Zhang,Z.Ma,D.Chen,G.Tao,B.Su,Stretchablemagnetoelectricfibersforself-poweredtactilesensing,AppliedMater.Today20,100623,(2020).Wu,R.Hu,S.Zeng,W.Xi,S.Huang,J.Deng,andG.Tao*,Flexibleandrobustbiomaterialmicrostructuredcolouredtextilesforpersonalthermoregulation,ACSAppl.Mater.Interfaces12,19015-19022(2020).Hu,S.Shin,Y.Liu,S.Huang,X.Ren,W.Shu,J.Cheng,G.Tao,W.Xu,R.Chen,X.Luo,Emergingmaterialsandstrategiesforpersonalthermalmanagement,Adv.EnergyMater.10,1903921(2020).Yang.J.Zhou,G.Tao*,M.Alrashoud,K.N.AlMutibandAl-Hammadi,Wearable3.0:Fromsmartclothingtowearableaffectiverobot,IEEENetwork33,8-14(2019)MZhu,TKikutani,TLiu,SRamakrishna,GTao,Fiberchangesourlife,FiberMater.1,1–2(2019).Du,S.Ye,J.Tang,S.Lv,J.Chen,J.Orava,G.Tao,P.Lan,J.Hao,Z.Yang,J.Qiu,andS.Zhou,Scalablein-Fibermanufactureoffunctionalcompositeparticles,ACSNano12,11130-11138(2018).Shabahang,F.A.Tan,J.D.Perlstein,G.Tao,O.Alvarez,F.Chenard,K.L.Schepler,andA.F.Abouraddy,Robustmultimaterialchalcogenidefibersproducedbyahybridfiber-fabricationprocess,Opt.Mater.Express7,2336-2345(2017).Tao,J.J.Kaufman,S.Shabahang,R.R.Naraghi,S.V.Sukhov,J.D.Joannopoulos,Y.Fink,A.Dogariu,andA.F.Abouraddy,Digitaldesignofmultimaterialphotonicparticles,Proc.Natl.Acad.Sci.USA113,6839-6844(2016).Shabahang,G.Tao,J.J.Kaufman,Y.Qiao,L.Wei,T.Bouchenot,A.P.Gordon,Y.Fink,Y.Bai,R.S.Hoy,andA.F.Abouraddy,Controlledfragmentationofmultimaterialfibresandfilmsviapolymercold-drawing,Nature534,529-533(2016).浙江大学：1.团队介绍马耀光，浙江大学百人计划研究员、博士生导师。包括超构材料与超构表面器件、国家改革微纳光器件、非线性光学器件等方面。

电网（E）模拟人体皮肤降温测试装置结构示意图和测试织物样品照片。马教授为国家自然科学基金委面上项目、初心浙江省自然科学基金、之江实验室科研项目等科技项目担任评审专家。课题组目前已形成一支包含博士生、旧闻硕士生、旧闻本科生、技术工程师、专职科研秘书等在内的完整科研梯队，已搭建具有国际一流水准的智能纤维制造科研平台。

图三、重看组建超材料织物的降温性能测试（A，B）辐射制冷性能测试装置的示意图和照片。国家改革（D）不同覆盖情况下的模拟汽车降温对比测试曲线。

然而，电网迄今为止的大多数辐射制冷结构（薄膜或涂层等）仍具有较低的可穿戴性，限制其直接应用于PTM系统。

图二、初心超材料织物的制备和表征（A）超材料织物的制备流程示意图。Fig.2In-situXRDanalysisoftheinteractionsduringcycling.（a）XRDintensityheatmapfrom4oto8.5oofa2.4mgcm–2cellsfirstcycledischargeat54mAg–1andchargeat187.5mAg–1,wheretriangles=Li2S,square=AQ,asterisk=sulfur,andcircle=potentiallypolysulfide2θ.(b)ThecorrespondingvoltageprofileduringtheinsituXRDcyclingexperiment.材料形貌表征在材料科学的研究领域中，旧闻常用的形貌表征主要包括了SEM，旧闻TEM，AFM等显微镜成像技术。

研究者发现当材料中引入硒掺杂时，重看组建锂硫电池在放电的过程中长链多硫化物的生成量明显减少，重看组建从而有效地抑制了多硫化物的穿梭效应，提高了库伦效率和容量保持率，为锂硫电池的机理研究及其实用化开辟了新的途径。此外，国家改革结合各种研究手段，与多学科领域相结合、相互佐证给出完美的实验证据来证明自己的观点更显得尤为重要。

电网Fig.5AbinitiocalculationsoftheredoxmechanismofLi2Mn2/3Nb1/3O2F.manganese(a)andoxygen(b)averageoxidationstateasafunctionofdelithiation(xinLi2-xMn2/3Nb1/3O2F)andartificiallyintroducedstrainrelativetothedischargedstate(x=0).c,ChangeintheaverageoxidationstateofMnatomsthatarecoordinatedbythreeormorefluorineatomsandthosecoordinatedbytwoorfewerfluorineatoms.d,ChangeintheaverageoxidationstateofOatomswiththree,fourandfiveLinearestneighboursinthefullylithiatedstate(x=0).Thedataincanddwerecollectedfrommodelstructureswithoutstrainandarerepresentativeoftrendsseenatalllevelsofstrain.Theexpectedaverageoxidationstategivenina-dissampledfrom12representativestructuralmodelsofdisordered-rocksaltLi2Mn2/3Nb1/3O2F,withanerrorbarequaltothestandarddeviationofthisvalue.e,AschematicbandstructureofLi2Mn2/3Nb1/3O2F.小结目前锂离子电池及其他电池领域的研究依然是如火如荼。材料结构组分表征目前在储能材料的常用结构组分表征中涉及到了XRD,NMR,XAS等先进的表征技术，初心此外目前的研究也越来越多的从非原位的表征向原位的表征进行过渡。