[1] Chen L,Hou X,Song N,et al.Cellulose/graphene bioplastic for thermal management:enhanced isotropic thermally conductive property by three-dimensional interconnected graphene aerogel[J].Composites Part A:Applied Science and Manufacturing,2018,107:189-196.
[2] Drakakis E,Suchea M,Tudose V,et al.Zinc oxide-graphene based composite layers for electromagnetic interference shielding in the GHz frequency range[J].Thin Solid Films,2018,651:152-157.
[3] González M,Baselga J,Pozuelo J.Modulating the electromagnetic shielding mechanisms by thermal treatment of high porosity graphene aerogels[J].Carbon,2019,147:27-34.
[4] Li Y,Li Z,Lei L,et al.Chemical vapor deposition-grown carbon nanotubes/graphene hybrids for electrochemical energy storage and conversion[J].Flat Chem,2019,15:100091.
[5] Liu L,Wang H,Shan M,et al.Lightweight sandwich fiber-welded foam-like nonwoven fabrics/graphene composites for electromagnetic shielding[J].Materials Chemistry and Physics,2019,232:246-253.
[6] Mazzoli A,Corinaldesi V,Donnini J,et al.Effect of graphene oxide and metallic fibers on the electromagnetic shielding effect of engineered cementitious composites[J].Journal of Building Engineering,2018,18:33-39.
[7] Ren F,Guo Z,Shi Y,et al.Lightweight and highly efficient electromagnetic wave-absorbing of 3D CNTs/GNS@CoFe2O4 ternary composite aerogels[J].Journal of Alloys and Compounds,2018,768:6-14.
[8] Ren F,Guo Z Z,Guo H,et al.Layer-structured design and fabrication of cyanate ester nanocomposites for excellent electromagnetic shielding with absorption-dominated characteristic[J].Polymers,2018,10(9):933.
[9] Ren F,Li Z,Xu L,et al.Large-scale preparation of segregated PLA/carbon nanotube composite with high efficient electromagnetic interference shielding and favourable mechanical properties[J].Composites Part B:Engineering,2018,155:405-413.
[10] Singh A K,Shishkin A,Koppel T,et al.A review of porous lightweight composite materials for electromagnetic interference shielding[J].Composites Part B:Engineering,2018,149:188-197.
[11] Xi J,Li Y,Zhou E,et al.Graphene aerogel films with expansion enhancement effect of high-performance electromagnetic interference shielding[J].Carbon,2018,135:44-51.
[12] Bi S,Zhang L,Mu C,et al.Electromagnetic interference shielding properties and mechanisms of chemically reduced graphene aerogels[J].Applied Surface Science,2017,412:529-536.
[13] Cao M S,Chen H,Wang X X,et al.Graphene nanohybrid:excellent electromagnetic properties for electromagnetic wave absorbing and shielding[J].Journal of Materials Chemistry C,2018,6(17):DOI:10.1039.C7TC05869A.
[14] Shahzad F,Lee S H,Hong S M,et al.Segregated reduced graphene oxide polymer composite as a high performance electromagnetic interference shield[J].Research on Chemical Intermediates,2018,44(8):4707-4719.
[15] Wang Z,Mao B,Wang Q,et al.Ultrahigh conductive copper/Large flake size graphene heterostructure thin-film with remarkable electromagnetic interference shielding effectiveness[J].Small,2018,14(20):1704332.
[16] Wu Y,Wang Z,Liu X,et al.Ultralight graphene foam/conductive polymer composites for exceptional electromagnetic interference shielding[J].ACS Applied Materials & Interfaces,2017,9(10):9059-9069.
[17] Xu F,Chen R,Lin Z,et al.Superflexible interconnected graphene network nanocomposites for high-performance electromagnetic interference shielding[J].ACS Omega,2018,3(3):3599-3607.
[18] Zeng J,Ji X,Ma Y,et al.3D Graphene fibers grown by thermal chemical vapor deposition[J].Advanced Materials,2018,30(12):1705380.
[19] Teng C,Xie D,Wang J,et al.Ultrahigh conductive graphene paper based on ball-milling exfoliated graphene[J].Advanced Functional Materials,2017,27(20):1700240.
[20] Annett J,Cross G L W.Self-assembly of graphene ribbons by spontaneous self-tearing and peeling from a substrate[J].Nature,2016,535:271.
[21] Voiry D,Yang J,Kupferberg J,et al.High-quality graphene via microwave reduction of solution-exfoliated graphene oxide[J].Science,2016,353(6306):1413.
[22] Bepete G,Anglaret E,Ortolani L,et al.Surfactant-free single-layer graphene in water[J].Nature Chemistry,2016,9:347.
[23] Xu X,Zhang Z,Qiu L,et al.Ultrafast growth of single-crystal graphene assisted by a continuous oxygen supply[J].Nature Nanotechnology,2016,11:930.
[24] Sha J,Li Y,Villegas Salvatierra R,et al.Three-dimensional printed graphene foams[J].ACS Nano,2017,11(7):6860-6867.
[25] Xu X,Zhang Z,Dong J,et al.Ultrafast epitaxial growth of metre-sized single-crystal graphene on industrial Cu foil[J].Science Bulletin,2017,62(15):1074-1080.
[26] Wang B,König M,Bromley C J,et al.Ethene to graphene:surface catalyzed chemical pathways,intermediates,and assembly[J].The Journal of Physical Chemistry C,2017,121(17):9413-9423.
[27] Ren S,Rong P,Yu Q.Preparations,properties and applications of graphene in functional devices:a concise review[J].Ceramics International,2018,44(11):11940-11955.
[28] Yan D X,Pang H,Li B,et al.Structured reduced graphene oxide/polymer composites for iltra-efficient electromagnetic interference shielding[J].Advanced Functional Materials,2015,25(4):559-566.
[29] Liang C,Song P,Qiu H,et al.Superior electromagnetic interference shielding performances of epoxy composites by introducing highly aligned reduced graphene oxide films[J].Composites Part A:Applied Science and Manufacturing,2019,124:105512.
[30] Bi S,Zhang L,Mu C,et al.A comparative study on electromagnetic interference shielding behaviors of chemically reduced and thermally reduced graphene aerogels[J].Journal of Colloid and Interface Science,2017,492:112-118.
[31] González M,Baselga J,Pozuelo J.High porosity scaffold composites of graphene and carbon nanotubes as microwave absorbing materials[J].Journal of Materials Chemistry C,2016,4(36):8575-8582.
[32] Shen B,Li Y,Yi D,et al.Strong flexible polymer/graphene composite films with 3D saw-tooth folding for enhanced and tunable electromagnetic shielding[J].Carbon,2017,113:55-62.
[33] Kumar P,Shahzad F,Yu S,et al.Large-area reduced graphene oxide thin film with excellent thermal conductivity and electromagnetic interference shielding effectiveness[J].Carbon,2015,94:494-500.
[34] Zhang X,Zhang X,Yang M,et al.Ordered multilayer film of (graphene oxide/polymer and boron nitride/polymer) nanocomposites:an ideal EMI shielding material with excellent electrical insulation and high thermal conductivity[J].Composites Science and Technology,2016,136:104-110.
