Page 228 - 《精细化工》2023年第5期

P. 228

·1148· 精细化工 FINE CHEMICALS 第 40 卷

[7] TREVOY L W, BROWN W G. Mechanism of lithium aluminum China (国家标准出版社), 2014: 12.
hydride reactions[J]. Journal of the American Chemical Society, [14] ZENKEVICH I G, ELISEENKOV E V, KASATOCHKIN A N, et al.
1949, 71(5): 1675-1678. Identification of the products of nonregioselective organic reactions
[8] XING Q Y (邢其毅), PEI W W (裴伟伟), XU R Q (徐瑞秋), by chromatography-mass spectrometry: Chloro derivatives of dialkyl
et al． Basic organic chemistry[M]． Beijing: Peking University ethers[J]. Journal of Analytical Chemistry, 2011, 66(14): 1445-1454.
Press (北京大学出版社), 2016: 288-290. [15] LU J (陆瑾), LIN D Q (林东强), YAO S J (姚善泾). Improvement
[9] WANG Y T (王宜涛), ZHANG S G (张舜光), ZHEN B (甄彬), et al. on thionyl chloride method to activate hydroxyl group of polymer for
Synthesis of chloro-terminated polyethylene glycol via reaction of affinity partition[J]. CIESC Journal ( 化工学报 ), 2004, 55(7):
polyethylene glycol and thionyl chloride[J]. Journal of Chemical 1179-1182.
Engineering of Chinese Universities (高校化学工程学报), 2017, [16] CHEN S (陈爽), HUANG Q Q ( 黄巧巧). Determination of
31(6): 1389-1394. dichlorosulfane potentially genotoxic impurity in levofloxacin by
[10] ZHANG J (张进), CUI S P (崔尚平), XI Z (席征), et al. Research GC-MS[J]. Strait Pharmaceutical Journal (海峡药学), 2019, 31(5):
progress in terminal hydroxyl modification of polyethylene glycol 54-56.
[J]. Chemical Propellants & Polymeric Materials (化学推进剂与高 [17] ZHANG J (张霁), ZHANG Y J (张英俊), NIE B (聂飚). Advances
分子材料), 2015, 13(2): 46-50. in control strategies and methods for genotoxic impurities in drug
[11] CHEN P P (陈朋朋), JIANG H H (蒋慧华), ZHOU X J (周晓军), research & development[J]. Chinese Journal of Pharmaceuticals (中
et al. The study on the synthesis method of 1-(2-chloroethoxy) 国医药工业杂志), 2018, 49(9): 1203-1220.
propane[J]. Guangdong Chemical Industry ( 广东化工 ), 2017, [18] WAN J Y (万君玥), CHEN H (陈华), YIN J (尹婕). Strategies for
44(11): 99,107. genotoxicity assessment and advances in analytical techniques of
[12] The State Pharmacopoeia Commission of P. R. China. Pharmacopoeia impurities of chemical drugs[J]. Chinese Journal of Pharmaceutical
of the People's Republic of China(2020)[S]. Volume Ⅳ. Beijing: Analysis (药物分析杂志), 2022, 42(4): 557-571.
China Medical Science Press (中国医药科技出版社), 2020: 114. [19] GUAN Y Z (关元宙), LIANG Y (梁毅). Classification, removal and
[13] General Administration of Quality Supervision, Inspection and control strategies of genotoxic impurities in API[J]. Chemical and
Quarantine of the People's Republic of China, Standardization Pharmaceutical Engineering (化工与医药工程), 2021, 42(3): 35-41.
Administration of China. Determination of 2-methoxyethanol, [20] XIE L L (谢玲玲). Research for potential genotoxic impurity in raw
2-ethoxyethanol and 2-(2-methoxyethoxy) ethanol in cosmetics-gas materials of indapamide[D]. Suzhou: Soochow University (苏州大
chromatography: GB/T 30942—2014[S]. Beijing: Standards Press of 学), 2016.

（上接第 1129 页） concentration，speciation，hazard and control of residual Al in
drinking water[J]. Fine Chemicals (精细化工), 2013, 30(4): 412-419.
[8] WANG Z Y, JIANG H R, ZHANG Y S, et al. Stepwise flotation [18] KE S Z (柯水洲), TU J Y (涂家勇), ZHU J (朱佳), et al. Effect of
separation of WEEE plastics by polymeric aluminum chloride PAC hydrolysis species on coagulation efficiency and floc
towards source control of microplastics[J]. Waste Management, characteristics[J]. Chinese Journal of Environmental Engineering (环
2022, 149: 1-10. 境工程学报), 2017, 11(2): 733-738.
[9] ZAKARIA Z, AHMAD W. Organic and inorganic matter removal [19] HU C Z, LIU H J, QU J H, et al. Coagulation behavior of aluminum
using high polymeric Al 13 containing polyaluminium chloride[J]. salts in eutrophic water: Significance of Al 13 species and pH
Water, Air, & Soil Pollution, 2020, 231: 310. control[J]. Environmental Science &Technology, 2006, 40: 325-331.
[10] MA X Y, ZENG G M, ZHANG C, et al. Characteristics of BPA [20] JIMÉNEZ C, SÁEZ C, MARTÍNEZ F, et al. Electrochemical dosing
removal from water by PACl-Al 13 in coagulation process[J]. Journal of iron and aluminum in continuous processes: A key step to explain
of Colloid and Interface Science, 2009, 337(2): 408-413. electro-coagulation processes[J]. Separation and Purification
[11] KONG Y L, MA Y Q, DING L, et al. Coagulation behaviors of Technology, 2012, 98(19): 102-108.
aluminum salts towards humic acid: Detailed analysis of aluminum [21] ZHANG Y H (张玉华), AI J Y (艾矫燕). Optimization of flocculated
speciation and transformation[J]. Separation and Purification Technology, conditions based on the Zeta potential for the treatment of
2021, 259: 118137. paper-making middle section wastewater[J]. Industrial Water
[12] MAKI H, BABA K, OH Y, et al. Analysis of hydrolysis reaction of Treatment (工业水处理), 2014, 34(8): 72-75.
2–
–
aluminum polynuclear complex with Cl and SO 4 anions by [22] HUANG X G (黄小光), XU J Q (许金泉). Energy principle of
quantitative multinuclear NMR and evaluation of coagulation behavior of pitting evolution and nucleation of corrosion fatigue cracks[J].
model sludge water[J]. Colloids and Surfaces A: Physicochemical Chinese Journal of Solid Mechanics (固体力学学报), 2013, 34(1):
and Engineering Aspects, 2021, 630: 127623. 7-12.
[13] YUE Y, AN G Y, LIU L B, et al. Pre-aggregation of Al 13 in [23] XIONG W ( 熊伟 ). Dissolution behaviour and mechanism of
optimizing coagulation for removal of humic acid[J]. Chemosphere, aluminum anode in solution containing chloride[D]. Wuhan: Huazhong
2021, 277: 130268. University of Science and Technology (华中科技大学), 2011.
[14] LIU L B (刘丽冰), WANG X (王希), YANG C G (杨承刚), et al. [24] KEYIKOGLU R, CAN O, AYGUN A, et al. Comparison of the
The analysis of dominant species in aluminous coagulants and their effects of various supporting electrolytes on the treatment of a dye
coagulation properties[J]. Acta Scientiae Circumstantiae (环境科学 solution by electrocoagulation process[J]. Colloid and Interface
学报), 2020, 40(12): 4249-4262. Science Communications, 2019, 33: 100210.
[15] HU C Z, CHEN G X, LIU H J, et al. Characterization of flocs [25] TROMPETTE J, LAHITTE J. Effects of some ion-specific properties
generated by preformed and in situ formed Al 13 polymer[J]. in the electrocoagulation process with aluminum electrodes[J].
Chemical Engineering Journal, 2012, 197: 10-15. Colloids and Surfaces A: Physicochemical and Engineering, 2021,
[16] YAN M Q, WANG D S, QU J H, et al. Relative importance of 629: 127507.
hydrolyzed Al(Ⅲ) species (Al a, Al b, and Al c) during coagulation with [26] GAO X (高旭), LI P (李鹏), WANG X G (王学刚), et al.
polyaluminum chloride: A case study with the typical micro-polluted Comparison of treatment efficiency of uranium(Ⅵ ) containing
source waters[J]. Journal of Colloid and Interface Science, 2007, wastewater using flocculation and electrocoagulation processes[J].
316: 482-489. Chinese Journal of Environmental Engineering (环境工程学报),
[17] YANG Z L (杨忠莲), GAO B Y (高宝玉). Progress in the research of 2018, 12(2): 488-496.

223 224 225 226 227 228 229 230 231 232 233