此外，國企纖維絲、半纖維素和木質(zhì)素的交互結(jié)構(gòu)，造就了木材優(yōu)越的機(jī)械性能。參考文獻(xiàn)：互聯(lián)[1]M.Zhu,J.Song,T.Li,A.Gong,Y.Wang,J.Dai,Y.Yao,W.Luo,D.Henderson,L.Hu,HighlyAnisotropic,HighlyTransparentWoodComposites,Advancedmaterials,28(2016)5181-5187.[2]J.Song,C.Chen,S.Zhu,M.Zhu,J.Dai,U.Ray,Y.Li,Y.Kuang,Y.Li,N.Quispe,Y.Yao,A.Gong,U.H.Leiste,H.A.Bruck,J.Y.Zhu,A.Vellore,H.Li,M.L.Minus,Z.Jia,A.Martini,T.Li,L.Hu,Processingbulknaturalwoodintoahigh-performancestructuralmaterial,Nature,554(2018)224-228.[3]C.Chen,J.Song,S.Zhu,Y.Li,Y.Kuang,J.Wan,D.Kirsch,L.Xu,Y.Wang,T.Gao,Y.Wang,H.Huang,W.Gan,A.Gong,T.Li,J.Xie,L.Hu,ScalableandSustainableApproachtowardHighlyCompressible,Anisotropic,LamellarCarbonSponge,Chem,4(2018)544-554.[4]T.Li,J.Song,X.Zhao,Z.Yang,G.Pastel,S.Xu,C.Jia,J.Dai,C.Chen,A.Gong,F.Jiang,Y.Yao,T.Fan,B.Yang,L.W?gberg,R.Yang,L.Hu,Anisotropic,lightweight,strong,andsuperthermallyinsulatingnanowoodwithnaturallyalignednanocellulose,ScienceAdvances,4(2018)eaar3724.[5]C.Jia,C.Chen,Y.Kuang,K.Fu,Y.Wang,Y.Yao,S.Kronthal,E.Hitz,J.Song,F.Xu,B.Liu,L.Hu,FromWoodtoTextiles:Top-DownAssemblyofAlignedCelluloseNanofibers,Advancedmaterials,30(2018)e1801347.[6]W.Kong,C.Wang,C.Jia,Y.Kuang,G.Pastel,C.Chen,G.Chen,S.He,H.Huang,J.Zhang,S.Wang,L.Hu,Muscle-InspiredHighlyAnisotropic,Strong,Ion-ConductiveHydrogels,Advancedmaterials,30(2018)e1801934.[7]C.Wang,S.Wang,G.Chen,W.Kong,W.Ping,J.Dai,G.Pastel,H.Xie,S.He,S.Das,L.Hu,Flexible,Bio-CompatibleNanofluidicIonConductor,ChemistryofMaterials,30(2018)7707-7713.[8]M.Zhu,Y.Li,F.Chen,X.Zhu,J.Dai,Y.Li,Z.Yang,X.Yan,J.Song,Y.Wang,E.Hitz,W.Luo,M.Lu,B.Yang,L.Hu,PlasmonicWoodforHigh-EfficiencySolarSteamGeneration,AdvancedEnergyMaterials,8(2018)1701028.[9]H.Liu,C.Chen,H.Wen,R.Guo,N.A.Williams,B.Wang,F.Chen,L.Hu,Narrowbandgapsemiconductordecoratedwoodmembraneforhigh-efficiencysolar-assistedwaterpurification,JournalofMaterialsChemistryA,6(2018)18839-18846.[10]T.Li,H.Liu,X.Zhao,G.Chen,J.Dai,G.Pastel,C.Jia,C.Chen,E.Hitz,D.Siddhartha,R.Yang,L.Hu,ScalableandHighlyEfficientMesoporousWood-BasedSolarSteamGenerationDevice:LocalizedHeat,RapidWaterTransport,AdvancedFunctionalMaterials,28(2018)1707134.[11]C.Wang,L.Zhang,H.Xie,G.Pastel,J.Dai,Y.Gong,B.Liu,E.D.Wachsman,L.Hu,Mixedionic-electronicconductorenabledeffectivecathode-electrolyteinterfaceinallsolidstatebatteries,NanoEnergy,50(2018)393-400.[12]Y.Zhang,C.Wang,G.Pastel,Y.Kuang,H.Xie,Y.Li,B.Liu,W.Luo,C.Chen,L.Hu,3DWettableFrameworkforDendrite-FreeAlkaliMetalAnodes,AdvancedEnergyMaterials,8(2018)1800635.[13]Y.Liu,Y.Qiao,Y.Zhang,Z.Yang,T.Gao,D.Kirsch,B.Liu,J.Song,B.Yang,L.Hu,3Dprintedseparatorforthethermalmanagementofhigh-performanceLimetalanodes,EnergyStorageMaterials,12(2018)197-203.[14]Z.Liu,C.Yue,C.Chen,J.Xiang,F.Hu,D.Lee,D.Shin,S.Sun,L.Hu,T.Song,Aself-bufferingstructureforapplicationinhigh-performancesodium-ionbatteries,EnergyStorageMaterials,15(2018)242-248.[15]Y.Kuang,C.Chen,G.Pastel,Y.Li,J.Song,R.Mi,W.Kong,B.Liu,Y.Jiang,K.Yang,L.Hu,ConductiveCelluloseNanofiberEnabledThickElectrodeforCompactandFlexibleEnergyStorageDevices,AdvancedEnergyMaterials,8(2018)1802398.[16]W.Luo,J.Hayden,S.-H.Jang,Y.Wang,Y.Zhang,Y.Kuang,Y.Wang,Y.Zhou,G.W.Rubloff,C.-F.Lin,L.Hu,HighlyConductive,LightWeight,Robust,Corrosion-Resistant,Scalable,All-FiberBasedCurrentCollectorsforAqueousAcidicBatteries,AdvancedEnergyMaterials,8(2018)1702615.[17]H.Xie,C.Yang,K.K.Fu,Y.Yao,F.Jiang,E.Hitz,B.Liu,S.Wang,L.Hu,Flexible,Scalable,andHighlyConductiveGarnet-PolymerSolidElectrolyteTemplatedbyBacterialCellulose,AdvancedEnergyMaterials,8(2018)1703474.[18]Y.Li,T.Gao,Y.Yao,Z.Liu,Y.Kuang,C.Chen,J.Song,S.Xu,E.M.Hitz,B.Liu,R.J.Jacob,M.R.Zachariah,G.Wang,L.Hu,InSituChainmailCatalystAssemblyinLow-Tortuosity,HierarchicalCarbonFrameworksforEfficientandStableHydrogenGeneration,AdvancedEnergyMaterials,8(2018)1801289.[19]S.Xu,C.Chen,Y.Kuang,J.Song,W.Gan,B.Liu,E.M.Hitz,J.W.Connell,Y.Lin,L.Hu,Flexiblelithium–CO2batterywithultrahighcapacityandstablecycling,EnergyEnvironmentalScience,11(2018)3231-3237.[20]H.Song,S.Xu,Y.Li,J.Dai,A.Gong,M.Zhu,C.Zhu,C.Chen,Y.Chen,Y.Yao,B.Liu,J.Song,G.Pastel,L.Hu,HierarchicallyPorous,Ultrathick,BreathableWood-DerivedCathodeforLithium-OxygenBatteries,AdvancedEnergyMaterials,8(2018)1701203.本文由材料人專欄科技作者一諾供稿，互聯(lián)編輯部編輯。【引語】推出大牛速覽專欄：網(wǎng)不穩(wěn)主要撰寫材料領(lǐng)域內(nèi)的知名人物，讓大家快速了解各位大牛的研究進(jìn)展。

在過去的一年里，想去胡老師在固態(tài)電解質(zhì)[11]、想去鋰金屬負(fù)極[12,13]、鈉離子電池[14]等研究上取得了不錯(cuò)的成果，尤其是木頭納米纖維素在電池及催化領(lǐng)域的應(yīng)用更是讓人耳目一新。這種超強(qiáng)木頭刷新了木材在工程上的應(yīng)用，國企胡老師之后會不會考慮用超強(qiáng)木材造汽車呢？讓我們期待一下~[2]繼超強(qiáng)木頭的開發(fā)之后，國企胡老師又成功的將木頭做成高彈性的木炭海綿。

而且納米纖維帶有負(fù)電荷，互聯(lián)這種水凝膠還可以用作納米流體導(dǎo)管實(shí)現(xiàn)類似生物肌肉組織的離子選擇性傳輸功能。

雖然用蒸汽、網(wǎng)不穩(wěn)氨水或冷軋預(yù)處理木材，將其致密化，可以大大提高木材的機(jī)械性能，但是致密化程度并不能滿足現(xiàn)有技術(shù)對木材機(jī)械性能的要求。（f）1.4Ag-1下，想去Ni-MOF的充電-放電循環(huán)圖。

國企（b-d）NixSy@CoS的TEM圖像?；ヂ?lián)（f）β-NiS電極的CV曲線。

網(wǎng)不穩(wěn)相關(guān)成果以Nickel-basedmaterialsforsupercapacitors為題發(fā)表在MaterialsToday上。（d，想去e，f）NH4NiPO4·H2O/Ni泡沫的元素Mapping圖、CV曲線、CP曲線;（g）電流密度與質(zhì)量比容量關(guān)系圖。