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第 11 期 张 雷,等: 聚合物基氧化石墨烯纳米复合材料研究进展 ·2171·
composite[J]. Carbon, 2019, 149, 679-692. [35] WEI L F, MA J Z, ZHANG W B, et al. The tribological behaviors of
[15] PUTZ K W, COMPTON O C, PALMERI M J, et al. polyacrylate/graphene oxide and polyacrylate/surfactant-modified reduced
Highnanofillercontent graphene oxide-polymer nanocomposites via graphene oxide composite coatings on flexible leather substrates[J].
vacuumassisted self-assembly[J]. Advanced Functional Materials, Progress in Organic Coatings, 2018, 122:64-71.
2010, 20(19): 3322-3329. [36] ZIMNEY E J, DOMMETT G H B, RUOFF R S, et al. Correction
[16] LIU C, YAN H X, LYU Q, et al. Enhanced tribological properties of factors for 4-probe electrical measurements with finite size electrodes
aligned reduced graphene oxide-Fe 3O 4 @polyphosphazene/bismaleimides and material anisotropy: A finite element study[J]. Measurement
composites[J]. Carbon, 2016, 102: 145-153. Science & Technology, 2007, 18(7): 2067-2073.
[17] CHEN Y J (陈艳军), XIA Y L (夏元玲), WANG H P (王慧萍), et al. [37] YU R L, RAGHU A V, HAN M J, et al. Properties of waterborne
Preparation and electrochemical performance of graphene modified polyurethane/functionalized graphene sheet nanocomposites prepared
by chitosan quaternary ammonium salt[J]. Acta Polymerica Sinica by an in situ method[J]. Macromolecular Chemistry & Physics, 2009,
(高分子学报), 2015, (9): 1085-1091. 210(15): 1247-1254.
[18] WU Y H (吴艳红). Research on layered structural material based on [38] MA Z L, WEI A J, MA J Z, et al. Lightweight, compressible and
polymer grafted graphene oxide imitation shell[D]. Suzhou: Suzhou electrically conductive polyurethane sponges coated with synergistic
University (苏州大学), 2016. multiwalled carbon nanotubes and graphene for piezoresistivesensors[J].
[19] YANG S D, SHEN C M, LIANG Y Y, et al. Graphene nanosheets- Nanoscale, 2018, 10(15): 7116-7126.
polypyrrole hybrid material as a highly active catalyst support for [39] XU Q (徐茜). Research on the preparation and conductive properties
formic acid electro-oxidation[J]. Nanoscale, 2011, 3(8): 3277-3284. of graphene/phenolic resin composites[D]. Guangzhou: South China
[20] LI J, XIE H Q, LI Y, et al. Electrochemical properties of graphene University of Technology (华南理工大学), 2014.
nanosheets/polyaniline nanofibers composites as electrode for [40] ZHOU S P, ZHANG H M, ZHAO Q, et al. Graphene-wrapped
supercapacitors[J]. Journal of Power Sources, 2011, 196(24): polyaniline nanofibers as electrode materials for organic
10775-10781. supercapacitors[J]. Carbon, 2013, 52(2): 440-450.
[21] POTTS J R, SUN H L, ALAM T M, et al. Thermo mechanical [41] ZHANG Y (章勇). Preparation and modification of graphene and its
properties of chemically modified graphene/poly(methyl methacrylate) application in antistatic coatings[D]. Shanghai: East China University
composites made by in situ polymerization[J]. Carbon, 2011, 49(8): of Science and Technology (华东科技大学), 2013
2615-2623. [42] JIANG Y (江悦). Research on thermal conductivity of graphene/
[22] HAZARIKA M, JANA T. Graphene nanosheets generated from epoxy resin composites[D]. Beijing: Beijing University of Chemical
sulfonated polystyrene/graphene nanocomposite[J]. Composites Technology (北京化工大学), 2015.
Science & Technology, 2013, 87(5): 94-102. [43] DAO T D, JEONG H M. A Pickering emulsion route to a stearic
[23] YOONESSI M, GAIER J R. Highly conductive multifunctional acid/graphene core-shell composite phase change material[J]. Carbon,
grapheme polycarbonate nanocomposites[J]. ACS Nano, 2010, 4(12): 2016, 99: 49-57.
7211-7220. [44] DAI W, YU J H, LIU Z D, et al. Enhanced thermal conductivity and
[24] RAMANATHAN T, STANKOVICH S, DIKIN D A, et al. Graphitic retained electrical insulation for polyimide composites with SiC
nanofillers in PMMA nanocomposites-an investigation of particle nanowires grown on graphene hybrid fillers[J]. Composites Part A:
size and dispersion and their influence on nanocomposite properties[J]. Applied Science & Manufacturing, 2015, 76: 73-81.
Journal of Polymer Science Part B:Polymer Physics, 2012, 45(15): [45] CHEN M Y (陈敏仪). Preparation and properties of graphene
2097-2112. microchips/carbon nanotubes/HDPE thermal conductive composite
[25] YANG X M, SHANG S M, LI L. Layer-structured poly(vinyl materials[D]. Guangzhou: Guangdong University of Technology (广
alcohol)/graphene oxide nanocomposites with improved thermal and 东工业大学), 2016.
mechanical properties[J]. Journal of Applied Polymer Science, 2011, [46] WANG X, XING W Y, ZHANG P, et al. Covalent functionalization
120(3): 1355-1360. of graphene with organosilane and its use as a reinforcement in
[26] HAN Y Q, WU Y, SHEN M X, et al. Preparation and properties of epoxy composites[J]. Composites Science & Technology, 2012,
polystyrene nanocomposites with graphite oxide and graphene as 72(6): 737-743.
flame retardants[J]. Journal of Materials Science, 2013, 48(12): [47] ZHANG S P (张树鹏). Improvement of thermal stability of polyethylene
4214-4222. glycol/functional graphene layered nanocomposites[J]. Acta Chimica
[27] KIM H, MIURA Y, MACOSKO C W. Graphene/polyurethane Sinica (化学学报), 2012, 70(12): 1394-1400.
nanocomposites for improved gas barrier and electrical conductivity[J]. [48] TANG W (唐伟). Optimum preparation and properties of graphene/
Chemistry of Materials, 2010, 22(11): 3441-3450. polyacrylate composite materials[D]. Wuhan: Hubei University (湖
[28] ZHANG H B, YAN Q, ZHENG W G, et al. Tough graphene-polymer 北大学), 2014.
microcellular foams for electromagnetic interference shielding [J]. [49] XUE Q Z, LYU C, SHAN M X, et al. Glass transition temperature of
ACS Applied Materials & Interfaces, 2011, 3(3): 918-924. functionalized graphene-polymer composites[J]. Computational
[29] ZHAN Y, WU J, XIA H, et al. Dispersion and exfoliation of graphene Materials Science, 2013, 71(3): 66-71.
in rubber by an ultrasonically-assisted latex mixing and in situ [50] WANG X (王旭). Preparation of graphene/polymer nanocomposites
reduction process[J]. Macromolecular Materials & Engineering, 2011, and study on creep recovery behavior[D]. Hangzhou: Hangzhou
296(7): 590-602. Normal University (杭州师范大学), 2015.
[30] ZHANG W B, WEI L F, MA J Z, et al. Exfoliation and defect control [51] WANG J X (王洁萱). Preparation of graphene composite wave
of graphene oxide for waterborne electromagnetic interference absorber and research on electromagnetic protection performance[D].
shielding coatings[J]. Composites Part A, 2020, 132:105838. Beijing: Beijing Institute of Technology (北京理工大学), 2015.
[31] ZHANG W B (张文博). Preparation and properties of polyacrylate/ [52] KANG H L, ZUO K H, WANG Z, et al. Using a green method to
modified graphene oxide composites[D]. Xi'an: Shaanxi University develop graphene oxide/elastomers nanocomposites with combination
of Science and Technology (陕西科技大学), 2016. of high barrier and mechanical performance[J]. Composites Science &
[32] MAN S H C, THICKETT S C, WHITTAKER M R, et al. Synthesis Technology, 2014, 92(3): 1-8.
of polystyrene nanoparticles “armoured” with nanodimensional [53] ANEJA K S, BÖHM H L M, KHANNA A S, et al. Functionalised
graphene oxide sheets by miniemulsion polymerization[J]. Journal of graphene as a barrier against corrosion[J]. Flatchem, 2016, 1: 11-19.
Polymer Science Part A: Polymer Chemistry, 2013, 51(1): 47-58. [54] ZOU Y H (邹禹涵). Study on the adsorption performance of graphene
[33] YIN G N, ZHENG Z, WANG H T, et al. Preparation of graphene oxide to methylene blue[D]. Quanzhou: Huaqiao University (华侨大
oxide coated polystyrene microspheres by Pickering emulsion 学), 2016.
polymerization[J]. Journal of Colloid & Interface Science, 2013, 394: [55] LENG Y Q, GUO W L, SU S N, et al. Removal of antimony(Ⅲ)
192-198. from aqueous solution by graphene as an adsorbent[J]. Chemical
[34] FALKOVICH S G, NAZARYCHEV V M, LARIN S V, et al. Engineering Journal, 2012, 211/212(47): 406-411.
Mechanical properties of a polymer at the interface structurally [56] LIANG J F, CAI Z, LI L D, et al. Scalable and facile preparation of
ordered by graphene[J]. Journal of Physical Chemistry C, 2016, graphene aerogel for air purification[J]. RSC Advances, 2014, 4(10):
120(12): 6771-6777. 4843-4847.