Page 226 - 精细化工2019年第8期
P. 226
·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.