陈  鑫等：六方氮化硼增强环氧树脂基复合材料的研究进展


                 1002/9783527610419. ntls0161.                       nanocomposites reinforced by hexagonal boron nitride after
             [12] SAINSBURY  T，SATTI  A，MAY  P，et  al. Oxygen  radical   noncovalent  biomimetic  functionalization[J]. ACS  Applied
                 functionalization of boron nitride nanosheets[J]. Journal of the   Materials & Interfaces，2015，7（10）：5915-5926.
                 American Chemical Society，2012，134（45）：18758-18771.  [27] CHEN J，CHEN B，LI J，et al. Enhancement of mechanical
             [13] XU  M，LIANG  T，SHI  M，et  al. Graphene-like  two-  and  wear  resistance  performance  in  hexagonal  boron
                 dimensional materials[J]. Chemical Reviews，2013，113（5）：  nitride-reinforced   epoxy   nanocomposites[J].  Polymer

                 3766-3798.                                          International，2017，66（5）：659-664.
             [14] TVERSKY K A J E. Prospect theory：n analysis of decision   [28] LIN Z，MCNAMARA A，LIU Y，et al. Exfoliated hexagonal
                                            a
                 under risk[J]. 1979，47（2）：263-291.                  boron nitride-based polymer nanocomposite with enhanced
             [15] 刘闯，张力，李平，等 . 氮化硼二维纳米材料剥离制备技                        thermal  conductivity  for  electronic  encapsulation[J].

                 术研究进展[J]. 2016，44（3）：122-128.                       Composites Science and Technology，2014，90：123-128.
             [16] LI  T，WANG  L，ZHANG  K，et  al. Freestanding  boron   [29] CHEN  J，HUANG  X，ZHU  Y，et  al. Cellulose  nanofiber
                 nitride nanosheet films for ultrafast oil/water separation[J].  supported  3D  interconnected  BN  nanosheets  for  epoxy
     健
                 Small，2016，12（36）：4960-4965.                        nanocomposites  with  ultrahigh  thermal  management
     康       [17] CHEN  X，DOBSON  J  F，RASTON  C  L. Vortex  fluidic   capability[J]. Advanced Functional Materials，2017，27（5）：
     探 工 工 应 科
     ·           exfoliation  of  graphite  and  boron  nitride[J]. Chemical   1604754.
     艺
     用
     艺
     索           Communications，2012，48（31）：3703-3705.          [30] XIAO  C，TANG  Y，CHEN  L，et  al. Preparation  of  highly
     学
     安
     全       [18] LOURIE  O  R，JONES  C  R，BARTLETT  B  M，et  al. CVD   thermally  conductive  epoxy  resin  composites  via  hollow
     开 技 技 研 视
                 growth of boron nitride nanotubes[J]. Chemistry of Materials，
     ·                                                               boron  nitride  microbeads  with  segregated  structure[J].
     发 术 术 究 点   2000，12（7）：1808-1810.                               Composites  Part  A：Applied  Science  and  Manufacturing，
     环       [19] SANDILANDS L J，REIJNDERS A A，SU A H，t al. Origin of   2019，121：330-340.
                                                  e
     境           the  insulating  state  in  exfoliated  high-T   two-dimensional   [31] CHEN  W，YU  Y，GU  Y，et  al. Controllable  synthesis  of
                                               c
                 atomic crystals[J]. Physical Review B，2014，90（8）：081402.  boron  nitride  submicron  tubes  and  their  excellent
             [20] SAHU  J，PANDA  K，GUPTA  B，et  al. Enhanced  tribo-  mechanical  property  and  thermal  conductivity  applied  in
                 chemical  properties  of  oxygen  functionalized  mechanically   the epoxy resin polymer composites[J]. Composites Part A：
                 exfoliated  hexagonal  boron  nitride  nanolubricant  additives[J].  Applied Science and Manufacturing，2022，154：106783.
                 Materials Chemistry and Physics，2018，207：412-422.  [32] PAN D，LI Q，ZHANG W，et al. Highly thermal conductive
             [21] 崔如馨，孙金煜，李韵雨，等 . 六方氮化硼纳米片的制                         epoxy nanocomposites filled with 3D BN/C spatial network
                 备[J]. 2019，41（12）：6-14.                             prepared  by  salt  template  assisted  method[J]. Composites
             [22] WANG  W，CHEN  S  J，DE  SOUZA  F  B，et  al. Exfoliation   Part B：Engineering，2021，209：108609.
                 and  dispersion  of  boron  nitride  nanosheets  to  enhance   [33] TOMER  V，POLIZOS  G，MANIAS  E，et  al. Epoxy-based
                 ordinary Portland cement paste[J]. Nanoscale，2018，10（3）：  nanocomposites  for  electrical  energy  storage. I：Effects  of
                 1004-1014.                                          montmorillonite  and  barium  titanate  nanofillers[J]. Journal
             [23] SEYHAN A T，GÖNCÜ Y，DURUKAN O，t al. Silanization of   of Applied Physics，2010，108（7）：074116.
                                               e

                 boron nitride nanosheets（BNNSs）through microfluidization   [34] 龚瑾，李喆，操卫康，等 . 颗粒尺寸及表面处理对氮化
                 and  their  use  for  producing  thermally  conductive  and   硼/环氧树脂复合材料介电特性的影响[J]. 绝缘材料，
                 electrically  insulating  polymer  nanocomposites[J]. Journal   2019，52（1）：16-22.
                 of Solid State Chemistry，2017，249：98-107.      [35] 律方成，阴凯，付可欣，等. 氟化剥离填料对氮化硼/环氧复
             [24] CUI M，REN S，QIN S，et al. Non-covalent functionalized   合材料沿面闪络电压的影响[J]. 高电压技术，2017，43（9）：
                 hexagonal  boron  nitride  nanoplatelets  to  improve  corrosion   38-45.
                 and  wear  resistance  of  epoxy  coatings[J]. RSC  Advances，  [36] AWAIS M，CHEN X，HONG Z，et al. Synergistic effects of

                 2017，7（70）：44043-44053.                             Micro-hBN  and  core-shell  Nano-TiO @SiO   on  thermal
                                                                                                 2    2
             [25] MA  P，SPENCER  J  T. Non-covalent  stabilization  and   and  electrical  properties  of  epoxy  at  high  frequencies  and

                 functionalization  of  boron  nitride  nanosheets（BNNSs） by   temperatures[J]. Composites Science and Technology，2022，
                               f
                 organic polymers：ormation of complex BNNSs-containing   227：109576.
                 structures[J]. Journal of Materials Science，2015，50：313-323.  [37] YANG  W，WANG  Y，LI  Y，et  al. Three-dimensional
             [26] WU  H，KESSLER  M  R. Multifunctional  cyanate  ester   skeleton  assembled  by  carbon  nanotubes/boron  nitride  as

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