·1714·                            精细化工   FINE CHEMICALS                                  第 36 卷

            [4]   Greenwald R B,  Pendri  A, Bolikal D,  et al.  Highly  water  soluble   [J]. Journal of Pharmaceutical Sciences, 1998, 87(11): 1440-1445.
                 taxol  derivatives:  2'-polyethyleneglycol  esters  as  potential  prodrugs   [13]  Wang J, Hu T, Liu Y, et al. Linetic and stoichiometric analysis of the
                 [J]. Bioorganic & Medicinal Chemistry Letters, 1994, 4(20): 2465-   modification process for N-terminal PEGylation of staphylokinase[J].
                 2470.                                             Anal Biochem, 2011, 412(1): 114-116.
            [5]   Greenwald R B, Pendri A, Conover C, et al. Drug delivery systems.   [14]  Kinstler O, Brems D, Lauren S, et al. Characterization and stability
                 2. Camptothecin 20-O-polyethylene glycol) ester transport forms[J].   of  N-terminally  PEGylatedrhG-CSF[J].  Pharmaceutical  Research,
                 Journal of Medicinal Chemistry, 1996, 39(10): 1938-1940.     1996, 13(7): 996-1002.
            [6]   Greenwald  R  B,  Conover  C  D,  Choe  Y  H.  Poly(ethylene  glycol)   [15]  Kamil  R,  Jianfeng  G,  Justin  D  H,  et al.  Evaluation  of  the
                 conjugated drugs and prodrugs: a comprehensive review[J]. Critical   physicochemical properties and the biocompatibility of polyethylene
                 Reviews in Therapeutic Drug Carrier Systems, 2000, 17(2): 101-161.     glycol-conjugated  gold  nanoparticles:  A  formulation  strategy  for
            [7]   Merriman R L, Hertel L W, Schultz R M, et al. Comparison of the   siRNA  delivery[J].  Colloid  Surface  B:  Biointerfaces,  2015,  135(1):
                 antitumor  activity  of  gemcitabine  and  ara-C  in  a  panel  of  human   604-612.
                 breast, colon, lung and pancreatic xenograft models[J]. Investigational   [16]  Nicolas H, Volckerl, Doris K, et al. Synthesis of heterotelechelicpoly
                 New Drugs, 1996, 14(3): 243-247.                  (ethylene glycol)s and their characterization by MALDI-TOF-MS[J].
            [8]   Emma  H,  James  R  N,  Manuel  M  M,  et al.  A  comparison  of  gold   Macromolecular Chemistry and Physics, 1999, 200: 1363-1373.
                 nanoparticle surface co-functionalization approaches using polyethylene   [17]  Maciej  J,  Stefanko,  Yurii  K,  et al.  Synthesis  of  functionalised
                 glycol (PEG) and the effect on stability, non-specific protein adsorption   polyethylene  glycol  derivatives  of  naproxen  for  biomedical
                 and  internalization[J].  Materials  Science  and  Engineering  C,  2016,   applications[J]. Tetrahedron, 2008, 64(44): 10132-10139.
                 62: 710-718.                                  [18]  Samuel  Z.  Synthesis  of  an  end-group  functionalized  polyethylene
            [9]   Jiang Zhongyi (姜忠义), Xu Songwei (许松伟), Gao Rong (高蓉).   glycol-lipid conjugate for preparation of polymer-grafted liposomes
                 Synthesis  and  application  of  polyethylene  glycol  derivatives   [J]. Bioconjug Chemistry, 1993, 4 (4) 296-299.
                 modified by biomolecular chemistry[J]. Polymer Bulletin (高分子通  [19]  Daniel E L, Brian F, Samuel Z. Heterobifunctional PEGs: Efficient
                 报), 2002, (1): 34-40.                             synthetic strategies and useful conjugation methodologies[J]. Bioorganic
            [10]  Chen  Long  (陈龙),  Wei  Yanan  (卫延安).  Preparation  of  carboxyl-   & Medicinal Chemistry Letters, 2010, 20(22): 6823-6826.
                 mmonomethoxypoly  (ethylene  glycol)[J].  Fine  Chemicals  (精细化  [20]  Wang Hao (王昊), Wang Meiyi (王美怡), Hong Wei (洪伟). Synthesis
                 工), 2013, 30(10): 1177-1180, 1197.                of  1-amino-11-azido-3,  6,  9-trioxaundecane[J].  Guangzhou  Chemical
            [11]  Chen Yangjian (陈阳建), Song Xiaoda (宋潇达), Peng Fujun (彭富  Industry (广州化工), 2013, 41(18): 3-4.
                 君), et al. Preparation of monomethoxypoly (ethylene glycol) amine   [21]  Erik  C  D, Berkley E G,  Lauren A A,  et al.  Antiandrogen  gold
                 [J]. Fine Chemicals (精细化工), 2015, 32(4): 434-437.     nanoparticles  dual-target  and  overcome  treatment  resistance  in
            [12]  Roberts  M  J,  Harris  J  M.  Attachment  of  degradable  poly(ethylene   hormone-insensitive  prostate  cancer  cells[J].  Bioconjugate  Chemistry,
                 glycol) to proteins has the potential to increase therapeutic efficacy   2012, 23(8): 1507-1502.


            （上接第 1688 页）                                       [20]  Dong  Jun  (董君),  Zhu  Lili  (朱丽丽),  Wu  Xinhu  (吴新虎),  et al.
                                                                   Synthesis  and  tribological  properties of  a  cyclic  phosphate  ester  as
            [9]   Huang X D, Zhao X Y, Zhang M Y, et al. Green synthesis of triaryl
                                                                   elevated  temperature  lubricanting  additive[J].  Lubrication  Engineering
                 phosphates with POCl 3 in water [J]. Chemistry Select, 2017, 2(34):   (润滑与密封), 2014, 39(10): 37-43.
                 11007-11011.                                  [21]  Eto M, Kinoshita Y, Kato T, et al. Saligenin cyclic alkyl phosphates
            [10]  Liu S, Fang Z P, Yan H Q, et al. Superior flame retardancy of epoxy   and  phosphorothionates  with  insecticidal  activity[J].  Journal  of  the
                 resin  by  the  combined  addition  of  graphene  nanosheets  and   Agricultural Biology Chemical, 1963, 27 (11): 789-794.
                 DOPO[J]. RSC Advances, 2016, 6(7): 5288-5295.   [22]  Gao D, Xu J B, Lin M, et al. Ethylene ethyl phosphate as a multifunctional
            [11]  Wang P, Cai Z S. Highly efficient flame-retardant epoxy resin witha   electrolyte additive for lithium-ion batteries[J]. RSC Advances, 2015,
                 novel  DOPO-based  triazole  compound:  Thermal  stability,  flame   5 (23): 17566-17571.
                 retardancy  and  mechanism[J].  Polymer  Degradation  &  Stability,   [23]  Lu Lingang (卢林刚), Yang Shousheng (杨守生), Zhang Yan (张燕),
                 2017, 137: 138-150.                               et al. Synthesis and thermal decomposition kinetics of novel flame
            [12]  Wen P Y, Feng X M, Kan Y C, et al. Synthesis of a novel triazine-   retardant  1,3,5-tris(5,5-dimthyl-1,3-dioxa-2-oxophosphorinanyl-2-oxy
                 based polymeric flame retardant and its application in polypropylene[J].   benzene[J].  Acta  Chimica  Sinica  (化学学报),  2009,  67(14):  1695-
                 Polymer Degradation & Stability, 2016, 134: 202-210   1699.
            [13]  Zhao D F, Wang L S, Sun J, et al. Measurement and correlation of   [24]  Lu Lingang (卢林刚), Chen Huaisi (陈淮思), Cao Fei (曹飞), et al.
                 solubility  of  resorcinol  bis(cyclic  2,2-dimethyl-1,3-propanediol   Synthesis,  structure  and  thermal  decomposition  behavior  of  novel
                 phosphate)  in  selected  solvents  from T  =  293.15  to  333.15  K[J].   free-flame  retardant  neopentyl  glycol  dipyrophosphate[J].  Acta
                 Journal Chemical & Engineering Data, 2017, 62(12): 4327-4336.   Chimica Sinica (化学学报), 2010, 68(15): 1532-1536.
            [14]  You G Y, Cheng Z Q, Peng H, et al. Synthesis and performance of a   [25]  Standardization Administration of the People's Republic of China (中
                 novel  nitrogencontaining  cyclic  phosphate  for  intumescent  flame   国国家标准化管理委员会).  GB/T2406.2—2009:  Plastics-Determination
                 retardant and its    application in epoxy resin[J]. Journal of Applied   of burning behaviour by oxygen index-Part 2 [S]. Beijing: Standards
                 Polymer Science, 2015, 132(16): 1-9.              Press of China, 2009: 6-15.
            [15]  Zhang S Q, Li B, Lin M, et al. Effect of a novel phosphoruscontaining   [26]  Standardization Administration of the People's Republic of China (中
                 compound  on  the  flame  retardency  and  thermal  degradation  of   国国家标准化管理委员会).  GB/T2408—2008:  Plastics-Determination
                 intumescent  flame  retardant  polypropylene[J]  Journal  of  Applied   of  burning  characteristics—characteristics-Horizontal  and  vertical
                 Polymer Science, 2011, 122(5): 3430-3439.         test[S]. Beijing: Standards Press of China, 2008: 8-4.
            [16]  Ma Zuoguang (马作广), Ni Zhongbin (倪忠斌), Dong Weifu (东为  [27]  Standardization Administration of the People's Republic of China (中
                 富), et al. Synthesis and flame retardancy of a cyclic phosphate[J].   国国家标准化管理委员会). GB/T 1040.1—2006:   Plastics-Determination
                 Fine Chemicals (精细化工), 2018, 35(2): 321-325.      of tensileproperties-Part 1: General principles [S]. Beijing: Standards
            [17]  Hoang D Q, Kim J. Synthesis and applications of biscyclic phosphorus   Press of China, 2006: 8-24.
                 flame  retardants[J].  Polymer  Degradation  &  Stability,  2008,  93(1):   [28]  Standardization Administration of the People's Republic of China (中
                 36-42.                                            国国家标准化管理委员会).  GB/T  6343—2009:  Cellular  plastics
            [18]  Vothi  H,  Nguyen  C,  Lee  K,  et al.  Thermal  stabil  ity  and  flame   and  rubbers-Determination  of  apparent  density  [S].  Beijing:  Standards
                 retardancy of novel phloroglucinol based organo phosphorus compound   Press of China, 2009: 5-4.
                 [J]. Polymer Degradation & Stability, 2010, 95(6): 1092-1098.   [29]  Yue  X,  Li  J,  Liu  P,  et al.  Improving  thermal  and  flame-retarded
            [19]  Hoang D Q, Kim J, Jang B N. Synthesis and performance of cyclic   poly(butylene snccinate) composites using MHSH as synergistic and
                 phosphorus-containing  flame  flame  retardants[J].  Polymer  Degradation   reinforced agent[J]. United States Journal of Materials Science, 2017,
                 Stability, 2008, 93(11): 2042-2047.               (5): 1-12.