Synergistic Optimization of Toughness and EMI Shielding Properties in Rigid Polyurethane Composites by Designing Ring Structures on the Surface of Carbon Fibers

Yi-Long Zhou; Wei-Wei Li; Hui-Xin Liu; Kai-Yuan Pei; Shi-Ting Li

doi:10.1007/s10118-023-2999-y

Your Location：

Home >

Browse articles >

Synergistic Optimization of Toughness and EMI Shielding Properties in Rigid Polyurethane Composites by Designing Ring Structures on the Surface of Carbon Fibers

RESEARCH ARTICLE | Updated：2023-11-27

- Synergistic Optimization of Toughness and EMI Shielding Properties in Rigid Polyurethane Composites by Designing Ring Structures on the Surface of Carbon Fibers
- Chinese Journal of Polymer Science Vol. 41, Issue 12, Pages: 1958-1968(2023)
- Affiliations：
  
  1.School of Materials Science and Chemical Engineering, Ningbo University, Ningbo 315211, China
- Author bio：
  
  liweiwei@nbu.edu.cn
- Funds：
- DOI：10.1007/s10118-023-2999-y
  CLC：
Scan for full text
Zhou, Y. L.; Li, W. W.; Liu, H. X.; Pei, K. Y.; Li, S. T. Synergistic optimization of toughness and EMI shielding properties in rigid polyurethane composites by designing ring structures on the surface of carbon fibers. Chinese J. Polym. Sci. 2023, 41, 1958–1968

Yi-Long Zhou, Wei-Wei Li, Hui-Xin Liu, et al. Synergistic Optimization of Toughness and EMI Shielding Properties in Rigid Polyurethane Composites by Designing Ring Structures on the Surface of Carbon Fibers. [J]. Chinese Journal of Polymer Science 41(12):1958-1968(2023)
Zhou, Y. L.; Li, W. W.; Liu, H. X.; Pei, K. Y.; Li, S. T. Synergistic optimization of toughness and EMI shielding properties in rigid polyurethane composites by designing ring structures on the surface of carbon fibers. Chinese J. Polym. Sci. 2023, 41, 1958–1968 DOI： 10.1007/s10118-023-2999-y.

Yi-Long Zhou, Wei-Wei Li, Hui-Xin Liu, et al. Synergistic Optimization of Toughness and EMI Shielding Properties in Rigid Polyurethane Composites by Designing Ring Structures on the Surface of Carbon Fibers. [J]. Chinese Journal of Polymer Science 41(12):1958-1968(2023) DOI： 10.1007/s10118-023-2999-y.

摘要

We designed and prepared the ring-shaped zinc coating on carbon fiber surface, which improved the interfacial properties between fibers and the matrix and resulted in the enhanced toughness of the composites. The synergistic effect of porous structure and conductive network caused by ring-shaped zinc decorated carbon fibers in the RPU matrix made the composites exhibited the satisfactory electrical conductivity and EMI shielding properties.

Abstract

How to achieve both toughness and enhanced electromagnetic interference shielding effectiveness (EMI SE) of carbon fibers (CFs) reinforced rigid polyurethane (RPU) composites is a significative challenge at present. In this work, a ring-shaped zinc coating was deposited on the short CFs by electrodeposition technique. It is expected to improve the interfacial properties between the fibers and the resin matrix as well as enhance the EMI shielding properties of the composites by changing the surface morphology and roughness of the fibers. Results showed that the surface free energy of the ring-shaped zinc modified carbon fibers (RS-CFs) increased from 49.0 mJ/m,2, to 53.2 mJ/m,2, indicating that the surface roughness and wettability of the CFs were effectively improved. In comparison with the pristine short carbon fibers/rigid polyurethane (CFs/RPU) composites, tensile strength and tensile toughness of RS-CFs modified composites were increased by 27.1% and 121.4%, respectively. In addition, the bending and impact strengths of RS-CFs reinforced RPU composites were also improved. Notably, the electrical conductivity of RS-CFs/RPU composites reached 1.2×10,−5, S/m, which was much higher than that of CFs/RPU composites at 1.4×10,−10, S/m. Moreover, the EMI SE of the modified composites reached 22 dB, which was 152.9% higher than that of CFs/RPU composites. The enhanced electrical conductivity and EMI shielding properties of the composites could be attributed to the synergistic effect of the porous structure in the RPU matrix and the CFs modified by the metal coating.

关键词

Keywords

Carbon fiberSurface decorationRigid polyurethaneMechanical propertiesEMI shielding

references

Wu,Q.;Yang,X.;Wan,Q.;Zhao,R.;He,J.;Zhu,J.Layer-by-layerassemblednacre-likepolyetheramine/GOhierarchicalstructureoncarbonfibersurfacetowardcompositeswithexcellentinterfacialstrengthandtoughness.Compos. Sci. Technol.2020,198,108296−108305..

Sha,Z.;Han,Z.;Wu,S.;Zhang,F.;Islam,M.;Brown,S.;Wang,C.Low-temperatureplasmaassistedgrowthofverticalgrapheneforenhancingcarbonfibre/epoxyinterfacialstrength.Compos. Sci. Technol.2019,184,107867−107878..

Ding,R.;Sun,Y.;Lee,J.;Nam,J.;Suhr,J.EnhancinginterfacialpropertiesofcarbonfiberreinforcedepoxycompositesbygraftingMXenesheets(Ti2C).Compos. Part B-Eng.2021,207,108580−108587..

Xie,P.;Liu,Y.;Feng,M.;Niu,M.;Liu,C.;Wu,N.;Sui,K.;Patil,R.R.;Pan,D.;Guo,Z.;Fan,R.HierarchicallyporousCo/Cnanocompositesforultralighthigh-performancemicrowaveabsorption.Adv. Compos. Hybrid Mater.2021,4,173−185..

Qi,G.;Liu,Y.;Chen,L.;Xie,P.;Pan,D.;Shi,Z.;Quan,B.;Zhong,Y.;Liu,C.;Fan,R.;Guo,Z.LightweightFe3C@Fe/Cnanocompositesderivedfromwastedcornstalkswithhigh-efficiencymicrowaveabsorptionandultrathinthickness.Adv. Compos. Hybrid Mater.2021,4,1226−1238..

Xie,P.;Shi,Z.;Feng,M.;Sun,K.;Liu,Y.;Yan,K.;Liu,C.;Moussa,T.;Huang,M.;Meng,S.;Liang,G.;Hou,H.;Fan,R.;Guo,Z.Recentadvancesinradio-frequencynegativedielectricmetamaterialsbydesigningheterogeneouscomposites.Adv. Compos. Hybrid Mater.2022,5,679−695..

Wu,N.;Zhao,B.;Liu,J.;Li,Y.;Chen,Y.;Chen,L.;Wang,M.;Guo,Z.MOF-derivedporoushollowNi/Ccompositeswithoptimizedimpedancematchingaslightweightmicrowaveabsorptionmaterials.Adv. Compos. Hybrid Mater.2021,4,707−715..

Karger-Kocsis,J.;Mahmood,H.;Pegoretti,A.Recentadvancesinfiber/matrixinterphaseengineeringforpolymercomposites.Prog. Mater. Sci.2015,73,1−43..

Wang,J.;Anthony,D.;Fuentes,C.;DeLuca,H.;Zhang,D.;Bismarck,A.;VanVuure,A.;Shaffer,M.;Seveno,D.Wettabilityofcarbonnanotube-graftedcarbonfibersandtheirinterfacialpropertiesinpolypropylenethermoplasticcomposite.Compos. Part A2022,159,106993−107002..

Nasser,J.;Steinke,K.;Sodano,H.ZnOnanostructuredinterphaseformultifunctionalandlightweightglassfiberreinforcedcompositematerialsundervariousloadingconditions.ACS Appl. Nano Mater.2020,3,1363−1372..

Nasser,J.;Steinke,K.;Zhang,L.;Sodano,H.Enhancedinterfacialstrengthofhierarchicalfiberglasscompositesthroughanaramidnanofiberinterphase.Compos. Sci. Technol.2020,192,108109−108118..

Wang,Q.;Chen,S.;Zeng,S.;Chen,P.;Xu,Y.;Nie,W.;Zhou,Y.Tunablemechanicalpropertiesofglassfiber/epoxycompositesbyincorporatingbioinspiredmontmorillonite-carbonnanotube/epoxyinterfacelayeraroundthefiber.Compos. Part B-Eng.2022,242,110092−110101..

Yang,K.;Zhang,F.;Chen,Y.;Zhang,H.;Xiong,B.;Chen,H.Recentprogressoncarbon-basedcompositesinmultidimensionalapplications.Compos. Part A2022,157,106906−106945..

Zhang,G.;Yin,T.;Nian,G.;Suo,Z.Fatigue-resistantpolyurethaneelastomercomposites.Extreme Mech. Lett.2021,48,101434−101439..

Xiang,Z.;Feng,Q.;Hu,F.;Zhang,B.;Qi,F.;Zhao,N.;Ouyang,X.Acompositenanofillerwithanailcolumnvoidstructuretoimitatebeetleshellfibertoenhancetheimpactresistanceofpolyurethaneelastomer.Compos. Sci. Technol.2022,221,109304−109311..

Keller,T.Recentall-compositeandhybridfibre-reinforcedpolymerbridgesandbuildings.Prog. Struct. Eng. Mat.2001,3,132−140..

Chee,H.;Qian,H.;Bismarck,A.Carbonfiber:surfaceproperties.Wiley Ency. Compos.2012,1−11..

Liao,W.;Tien,H.;Hsiao,S.;Li,S.;Wang,Y.;Huang,Y.;Yang,S.;Ma,C.;Wu,Y.Effectsofmultiwalledcarbonnanotubesfunctionalizationonthemorphologyandmechanicalandthermalpropertiesofcarbonfiber/vinylestercomposites.ACS Appl. Mater. Interfaces2013,5,3975−3982..

Zhang,T.;Wang,Z.;Zhang,G.;Liu,S.;Long,S.;Yang,J.;Yang,J.;Wang,X.Improvementofinterfacialinteractionbetweenpoly(arylenesulfidesulfone)andcarbonfiberviamolecularchaingrafting.Compos. Sci. Technol.2022,224,109463−109476..

Li,J.InterfacialstudiesontheO3modifiedcarbonfiber-reinforcedpolyamide6composites.Appl. Surf. Sci.2008,255,2822−2824..

Xu,Z.;Huang,Y.;Zhang,C.;Liu,L.;Zhang,Y.;Wang,L.Effectofγ-rayirradiationgraftingonthecarbonfibersandinterfacialadhesionofepoxycomposites.Compos. Sci. Technol.2007,67,3261−3270..

Cao,H.;Huang,Y.;Zhang,Z.;Sun,J.Uniformmodificationofcarbonfiberssurfacein3Dfabricsusingintermittentelectrochemicaltreatment.Compos. Sci. Technol.2005,65,1655−1662..

Chen,J.;Xu,H.;Liu,C.;Mi,L.;Shen,C.Theeffectofdoublegraftedinterfacelayeronthepropertiesofcarbonfiberreinforcedpolyamide66composites.Compos. Sci. Technol.2018,168,20−27..

Chen,J.;Wang,K.;Zhao,Y.EnhancedinterfacialinteractionsofcarbonfiberreinforcedPEEKcompositesbyregulatingPEIandgrapheneoxidecomplexsizingattheinterface.Compos. Sci. Technol.2018,154,175−186..

Cheon,J.;Kim,M.ImpactresistanceandinterlaminarshearstrengthenhancementofcarbonfiberreinforcedthermoplasticcompositesbyintroducingMWCNT-anchoredcarbonfiber.Compos. Part B-Eng.2021,217,108872−108884..

Yong,Q.;Chun,C.Chemicallygraftingcarbonnanotubesontocarbonfibersforenhancinginterfacialstrengthincarbonfiber/HDPEcomposites.Surf. Interface Anal.2018,50,552−557..

Kashfipour,M.;Mehra,N.;Zhu,J.Areviewontheroleofinterfaceinmechanical,thermal,andelectricalpropertiesofpolymercomposites.Adv. Compos. Hybrid Mater.2018,1,415−439..

Pearson,A.;Duncan,M.;Hammami,A.;Naguib,H.Interfacialadhesionandthermalstabilityofhigh-densitypolyethyleneglassfibercomposites.Compos. Sci. Technol.2022,227,109570−109576..

Mcbain,J.;Hopkins,D.Onadhesivesandadhesiveaction.J. Phys. Chem.2002,29,188−204..

Zhu,Y.;Valdez,J.;Shi,N.Acompositereinforcedwithbone-shapedshortfibers.Scripta Mater.1998,38,1321−1325..

Ma,R.;Li,W.;Huang,M.;Feng,M.;Liu,X.Thereinforcingeffectsofdendriticshortcarbonfibersforrigidpolyurethanecomposites.Compos. Sci. Technol.2019,170,128−134..

Li,W.;Liu,X.;Feng,M.;Yang,J.Bamboo-likeultra-highmolecularweightpolyethylenefibersandtheirepoxycomposites.Compos. Sci. Technol.2019,182,107716−107721..

Rodricks,C.;Greenfeld,I.;Wagner,H.Polymerbeadsasinterfacialobstaclesinfibrecomposites.Compos. Sci. Technol.2021,210,108793−108803..

Zhang,Z.;Liu,M.;Ibrahim,M.;Wu,H.;Wu,Y.;Li,Y.;Mersal,G.;ElAzab,I.;El-Bahy,S.;Huang,M.;Jiang,Y.;Liang,G.;Xie,P.;Liu,C.Flexiblepolystyrene/graphenecompositeswithepsilon-near-zeroproperties.Adv. Compos. Hybrid Mater.2022,5,1054−1066..

Liu,M.;Wu,H.;Wu,Y.;Xie,P.;Pashameah,R.;Abo-Dief,H.;El-Bahy,S.;Wei,Y.;Li,G.;Li,W.;Liang,G.;Liu,C.;Sun,K.;Fan,R.Theweaklynegativepermittivitywithlow-frequency-dispersionbehaviorinpercolativecarbonnanotubes/epoxynanocompositesatradio-frequencyrange.Adv. Compos. Hybrid Mater.2022,5,2021−2030..

Wu,H.;Zhong,Y.;Tang,Y.;Huang,Y.;Liu,G.;Sun,W.;Xie,P.;Pan,D.;Liu,C.;Guo,Z.PreciseregulationofweaklynegativepermittivityinCaCu3Ti4O12metacompositesbysynergisticeffectsofcarbonnanotubesandgrapheme.Adv. Compos. Hybrid Mater.2021,4,419−430..

Wu,H.;Sun,H.;Han,F.;Xie,P.;Zhong,Y.;Quan,B.;Zhao,Y.;Liu,C.;Fan,R.;Guo,Z.Negativepermittivitybehaviorinflexiblecarbonnanofibers-polydimethylsiloxanefilms.Eng. Sci.2022,17,113−120..

Dai,B.;Ma,Y.;Dong,F.;Yu,J.;Ma,M.;Thabet,H.;El-Bahy,S.;Ibrahim,M.;Huang,M.;Seok,I.;Roymahapatra,G.;Naik,N.;Xu,B.;Ding,J.;Li,T.OverviewofMXeneandconductingpolymermatrixcompositesforelectromagneticwaveabsorption.Adv. Compos. Hybrid Mater.2022,5,704−754..

Singh,A.;Shishkin,A.;Koppel,T.;Gupta,N.Areviewofporouslightweightcompositematerialsforelectromagneticinterferenceshielding.Compos. Part B-Eng.2018,149,188−197..

Kong,W.;Shi,J.;Zou,K.;Li,N.;Wang,Y.;Yan,D.;Li,Z.Synergisticallyoptimizinginterlaminarandelectromagneticinterferenceshieldingbehaviorofcarbonfibercompositebasedoninterfacialreinforcement.Carbon2022,200,448−455..

Kong,W.;Yi,S.;Sun,W.;Xu,L.;Jia,L.;Yan,D.;Li,Z.Polyaniline-decoratedcarbonfibersforenhancedmechanicalandelectromagneticinterferenceshieldingperformancesofepoxycomposites.Mater. Design.2022,217,658−667..

Cui,C;Yan,D.;Pang,H.;Jia,L;Bao,Y.;Jiang,X.;Li,Z.Towardsefficientelectromagneticinterferenceshieldingperformanceforpolyethylenecompositesbystructuringsegregatedcarbonblack/graphitenetworks.Chinese J. Polym. Sci.2016,34,1490−1499..

Li,J.;Sun,H.;Yi,S.;Zou,K;Zhang,D.;Zhong,G.;Yan,D.;Li,Z.Flexiblepolydimethylsiloxanecompositewithmulti-scaleconductivenetworkforultra-strongelectromagneticinterferenceprotection.Nano-micro Lett.2022,15,15−28..

Song,C.;Meng,X.;Chen,H.;Liu,Z.;Zhan,Q.;Sun,Y.;Lu,W.;Dai,Y.Flexible,graphene-basedfilmswiththree-dimensionalconductivenetworkviasimpledrop-castingtowardelectromagneticinterferenceshielding.Compos. Commun.2021,24,100632−100639..

Zhu,S.;Zhou,Q.;Wang,M.;Dale,J.;Qiang,Z.;Fan,Y.;Zhu,M.;Ye,C.Modulatingelectromagneticinterferenceshieldingperformanceofultra-lightweightcompositefoamsthroughshapememoryfunction.Compos. Part B-Eng.2021,204,108497−108506..

Fu,B.;Ren,P.;Guo,Z.;Du,Y.;Jin,Y.;Sun,Z.;Dai,Z.;Ren,F.Constructionofthree-dimensionalinterconnectedgraphenenanosheetnetworkinthermoplasticpolyurethanewithhighlyefficientelectromagneticinterferenceshielding.Compos. Part B-Eng.2021,215,108813−108820..

Sang,M.;Wu,Y.;Liu,S.;Bai,L.;Wang,S.;Jiang,W.;Gong,X.;Xuan,S.Flexibleandlightweightmelaminesponge/MXene/polyborosiloxane(MSMP)hybridstructureforhigh-performanceelectromagneticinterferenceshieldingandanti-impactsafe-guarding.Compos. Part B-Eng.2021,211,108669−108680..

Xiao,Y.;He,Y.;Wang,R.;Lei,Y.;Yang,J.;Qi,X.;Wang,Y.Mussel-inspiredstrategytoconstruct3Dsilvernanoparticlenetworkinflexiblephasechangecompositeswithexcellentthermalenergymanagementandelectromagneticinterferenceshieldingcapabilities.Compos. Part B-Eng.2022,239,109962−109974..

Yang,H.;Shi,R.;Jiang,Q.;Ren,J.Propertiesandmechanismoftwo-wayshapememorypolyurethanecompositeunderstress-freecondition.Adv. Compos. Hybrid Mater.2022,6,1−12..

Cui,Z.;Marcelle,S.;Zhao,M.;Wu,J.;Liu,X.;Si,J.;Wang,Q.Thermoplasticpolyurethane/titania/polydopamine(TPU/TiO2/PDA)3Dporouscompositefoamwithoutstandingoil/waterseparationperformanceandphotocatalyticdyedegradation.Adv. Compos. Hybrid Mater.2022,5,2801−2816..

Liu,J.;Zheng,N.;Li,Z.;Liu,Z.;Wang,G.;Gui,L.;Lin,J.Fastself-healingandantifoulingpolyurethane/fluorinatedpolysiloxane-microcapsules-silicacompositematerial.Adv. Compos. Hybrid Mater.2022,5,1899−1909..

Cai,J.;Murugadoss,V.;Jiang,J.;Gao,X.;Lin,Z.;Huang,M.;Guo,J.;Alsareii,S.;Algadi,H.;Kathiresan,M.Waterbornepolyurethaneanditsnanocomposites:amini-reviewforanti-corrosioncoating,flameretardancy,andbiomedicalapplications.Adv. Compos. Hybrid Mater.2022,5,641−650..

Shen,Y.;Yang,W.;Hu,F.;Zheng,X.;Zheng,Y.;Liu,H.;Algadi,H.;Chen,K.Ultrasensitivewearablestrainsensorforpromisingapplicationincardiacrehabilitation.Adv. Compos. Hybrid Mater.2022,6,21−31..

Song,H.;Zhang,Q.;Zhang,Y.;Wang,Y.;Zhou,Z.;Zhang,P.;Yuan,B.Waterbornepolyurethane/3-amino-polyhedraloligomericsilsesquioxane(NH2-POSS)nanocompositeswithenhancedproperties.Adv. Compos. Hybrid Mater.2021,4,629−638..

Liu,C.;Yin,Q.;Li,X.;Hao,L.;Zhang,W.;Bao,Y.;Ma,J.Awaterbornepolyurethane–basedleatherfinishingagentwithexcellentroomtemperatureself-healingpropertiesandwear-resistance.Adv. Compos. Hybrid Mater.2021,4,138−149..

Yang,J.;Li,W.;Zhou,Y.;Liu,H.Rigidpolyurethanecompositesreinforcedwithcarbonfibersdecoratedwithaskein-likesilvercoating.ChemistrySelect.2021,6,8727−8735..

Song,Y.;Tang,J.;Hu,J.;Yang,H.;Gu,W.;Fu,Y.;Ji,X.Interfacialassistantroleofamineadditivesonzincelectrodepositionfromdeepeutecticsolvents:anin situX-rayimaginginvestigation.Electrochim. Acta.2017,240,90−97..

Michalski,M.;Hardy,J.;Saramago,B.OnthesurfacefreeenergyofPVC/EVApolymerblends:comparisonofdifferentcalculationmethods.J. Colloid Interf. Sci.1998,208,319−328..

Wang,H.;Liu,M.;Li,S.;Zheng,X.;Zhou,X.Aself-healingandflexibleAg@carbonfiber/polyurethanecompositebasedondisulfidebondsandapplicationinelectromagneticinterferenceshielding.Colloid. Surface A2022,646,128956−128965..

Jiang,J.;Yao,X.;Xu,C.;Su,Y.;Zhou,L.;Deng,C.Influenceofelectrochemicaloxidationofcarbonfiberonthemechanicalpropertiesofcarbonfiber/grapheneoxide/epoxycomposites.Compos. Part A2017,95,248−256..

Yao,Y.;Chen,S.Theeffectsoffiber’ssurfaceroughnessonthemechanicalpropertiesoffiber-reinforcedpolymercomposites.J. Compos. Mater.2012,47,2909−2923..

Lopes,C.;Santana,P.;Rocha,C.;Souza,C.EvaluationofformicacidandcyclohexylamineasadditivesinelectrodepositionofZncoating.Mater. Res.2020,23,597−607..

Onkarappa,N.;Satyanarayana,J.;Suresh,H.;Malingappa,P.Influenceofadditivesonmorphology,orientationandanti-corrosionpropertyofbrightzincelectrodeposit.Surf. Coat. Tech.2020,397,126062−126074..

Pei,L.;Zhang,B.;Luo,H.;Wu,X.;Li,G.;Sheng,H.;Zhang,L.ElectrodepositionofZnONanoprism-Znsubstitutedhydroxyapatiteduplexlayercoatingforcarbonfiber.Ceram. Int.2019,45,14278−14286..

Savas,L.;Tayfun,U.;Dogan,M.Theuseofpolyethylenecopolymersascompatibilizersincarbonfiberreinforcedhighdensitypolyethylenecomposites.Compos. Part B-Eng.2016,99,188−195..

Hong,X.;Dong,W.;Yang,S.;Mu,B.;Liang,B.Studyonstructureandperformanceofreactivesilicatereinforcedpolyurethanecomposite.Polym. Eng. Sci.2015,55,2322−2327..

Liu,X.;Li,W.;Feng,M.;Yang,J.StrengthandtoughnessofcarbonfibersreinforcedrigidpolyurethanecompositesbyadsorbingtannicacidandrefiningNigrainsoncarbonfiberssurface.Polym. Adv. Technol.2020,32,326−334..

Zhou,Y.;Li,W.;Liu,H.;Pei,K.Reinforcementofnest-likeZnlayersonthesurfaceofcarbonfibersforrigidpolyurethanecomposites.Polym. Advan. Technol.2022,33,2289−2299..

Zhao,M.;Trainor,N.;Ren,C.;Torelli,M.;Anasori,B.;Gogotsi,Y.ScalablemanufacturingoflargeandflexiblesheetsofMXene/grapheneheterostructures.Adv. Mater. Technol.2019,4,1800639−1800645..

Wang,T.;Yu,W.;Zhou,C.;Sun,W.;Zhang,Y.;Jia,L.;Gao,J.;Dai,K.;Yan,D.;Li,Z.Self-healingandflexiblecarbonnanotube/polyurethanecompositeforefficientelectromagneticinterferenceshielding.Compos. Part B-Eng.2020,193,108015−108022..

Zhang,Y.;Li,S.;Tang,X.;Fan,W.;Lan,Q.;Li,L.;Ma,P.;Dong,W.;Wang,Z.;Liu,T.Ultralightandorderedlamellarpolyimide-basedgraphenefoamswithefficientbroadbandelectromagneticabsorption.J. Mater. Sci. Technol.2022,102,97−104..

Zhao,L.;Yang,G.;Shen,C.;Mao,Z.;Wang,B.;Sui,X.;Feng,X.Dual-functionalphasechangecompositebasedoncopperplatedcelluloseaerogel.Compos. Sci. Technol.2022,227,109615−109623..

Wang,Z.;Wei,R.;Liu,X.FluffyandorderedgraphenemultilayerfilmswithimprovedelectromagneticinterferenceshieldingoverX-band.ACS Appl. Mater. Interfaces2017,9,22408−22419..

Gao,Q.;Pan,Y.;Zheng,G.;Liu,C.;Shen,C.;Liu,X.FlexiblemultilayeredMXene/thermoplasticpolyurethanefilmswithexcellentelectromagneticinterferenceshielding,thermalconductivity,andmanagementperformances.Adv. Compos. Hybrid Mater.2021,4,274−285..

Xu,X.;Yao,F.;Ali,O.;Xie,W.;Mahmoud,S.;Xie,P.;El-Bahy,S.;Huang,M.;Liu,C.;Fan,R.;Guo,Z.;Du,A.;Estevez,D.;Qin,F.;Peng,H.;Young,D.;Gu,H.Adjustablecore-sheatharchitectureofpolyaniline-decoratedhollowcarbonnanofibernanocompositeswithnegativepermittivityforsuperbelectromagneticinterferenceshielding.Adv. Compos. Hybrid Mater.2022,5,2002−2011..

Chu,F.;Cheng,S.;Ye,Z.;Wu,F.;Zhuang,H.;Dong,W.;Xie,A.InsituetchingbyreleasedprotoninanilinepolymerizationtoformnetworkVO2dopedpolyanilinecompositeswithvariableinfraredemissivityforelectromagneticabsorptionapplication.Adv. Compos. Hybrid Mater.2022,5,2760−2771..

Zhang,S.;Cheng,B.;Jia,Z.;Zhao,Z.;Jin,X.;Zhao,Z.;Wu,G.Theartofframeworkconstruction:hollow-structuredmaterialstowardhigh-efficiencyelectromagneticwaveabsorption.Adv. Compos. Hybrid Mater.2022,5,1658−1698..

Zhang,S.;Jia,Z.;Cheng,B.;Zhao,Z.;Lu,F.;Wu,G.Recentprogressofperovskiteoxidesandtheirhybridsforelectromagneticwaveabsorption:amini-review.Adv. Compos. Hybrid Mater.2022,5,2440−2460..

Guo,Y.;Wang,D.;Bai,T.;Liu,H.;Zheng,Y.;Liu,C.;Shen,C.Electrostaticself-assembledNiFe2O4/Ti3C2TxMXenenanocompositesforefficientelectromagneticwaveabsorptionatultralowloadinglevel.Adv. Compos. Hybrid Mater.2021,4,602−613..

Cheng,H.;Xing,L.;Zuo,Y.;Pan,Y.;Huang,M.;Alhadhrami,A.;Ibrahim,M.;El-Bahy,Z.;Liu,C.;Shen,C.;Liu,X.Constructingnickelchain/MXenenetworksinmelaminefoamtowardsphasechangematerialsforthermalenergymanagementandabsorption-dominatedelectromagneticinterferenceshielding.Adv. Compos. Hybrid Mater.2022,5,755−765..

Wang,C.;Gao,H.;Liang,D.;Liu,S.;Zhang,H.;Guan,H.;Wu,Y.;Zhang,Y.Effectivefabricationofflexiblenickelchains/acrylatecompositepressure-sensitiveadhesiveswithlayeredstructurefortunableelectromagneticinterferenceshielding.Adv. Compos. Hybrid Mater.2022,5,2906−2920..

Song,W.;Guan,X.;Fan,L.;Cao,W.;Wang,C.;Zhao,Q.;Cao,M.Magneticandconductivegraphenepaperstowardthinlayersofeffectiveelectromagneticshielding.J. Mater. Chem. A2015,3,2097−2107..

Kuester,S.;Merlini,C.;Barra,G.;Ferreira,J.;Lucas,A.;Souza,A.;Soares,B.Processingandcharacterizationofconductivecompositesbasedonpoly(styrene-b-ethylene-ran-butylene-b-styrene)(SEBS)andcarbonadditives:acomparativestudyofexpandedgraphiteandcarbonblack.Compos. Part B-Eng.2016,84,236−247..

Wang,Y.;Peng,H.;Li,T.;Shiu,B.;Zhang,X.;Lou,C.;Lin,J.Tuninglightweight,flexible,self-cleaningbio-inspiredcore–shellstructureofnanofiberfilmsforhigh-performanceelectromagneticinterferenceshielding.J. Mater. Sci.2020,55,13008−13022..

Li,J.;Zhang,G.;Zhang,H.;Fan,X.;Zhou,L.;Shang,Z.;Shi,X.Electricalconductivityandelectromagneticinterferenceshieldingofepoxynanocompositefoamscontainingfunctionalizedmulti-wallcarbonnanotubes.Appl. Surf. Sci.2018,428,7−16..

Views

Downloads

CSCD

Alert me when the article has been cited

Submit

Tools

Publicity Resources

Nanoparticle-filled ABC Star Triblock Copolymers: A Dissipative Particle Dynamics Study

Investigating the Absorption and Desorption Behavior of Methylene Chloride in the Poly(aryl ether ketone) Film with Different Crystallinities

Effect of Carboxymethyl Cellulose (CMC) Functionalization on Dispersion, Mechanical, and Corrosion Properties of CNT/Epoxy Nanocomposites

Chain Extender-induced Hydrogen Bonding Organization Determines the Morphology and Properties of Thermoplastic Polycarbonate Polyurethane

Related Author

No data

Related Institution

Department of Physics, Shanghai Technical Institute of Electronics & Information

Department of Physics, Wenzhou University

Center for Advanced Low-Dimension Materials, State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Donghua University

Department of Civil, Construction and Environmental Engineering, North Dakota State University

Fuwai Hospital, Chinese Academy of Medical Sciences & Peking Union Medical College/National Center for Cardiovascular Diseases

⁰