2,4-Difluoro anisole: a promising complexing agent for boron isotopes separation by chemical exchange reaction and distillation

详细信息    查看全文

• 作者：Xiaoqin Wu (1)
  Peng Bai (1)
  Xianghai Guo (1)
  Nana He (1)
  
• 关键词：Boron ; Isotopic separation ; Fluoro ; substituted anisole ; 2 ; 4 ; Difluoro anisole
• 刊名：Journal of Radioanalytical and Nuclear Chemistry
• 出版年：2014
• 出版时间：June 2014
• 年：2014
• 卷：300
• 期：3
• 页码：897-902
• 全文大小：
• 参考文献：1. Herbst RS, McCandless FP (1994) Improved donors for the separation of the boron isotopes by gas–liquid exchange reactions. Sep Sci Technol 29(10):1293-310 CrossRef
  2. Cui J, Zhang WJ, Miao FH (2012) Dynamic simulation of the boron isotopes separation by chemical exchange method. Adv Mater Res 442:62-6 CrossRef
  3. Potapov SP (1961) Application of stable boron isotopes. At Energiya 10(3):234-36 CrossRef
  4. Semiokhin IA (1996) Chemical methods of stable isotope separation. J Radioanal Nucl Chem 205(2):201-13 CrossRef
  5. Yang G, Ceng Q (1989) Separation of stable isotopes. Atomic Energy Press, Washington, DC, pp 13-4
  6. Angelone M, Atzeni S, Rollet S (2002) Conceptual study of a compact accelerator-driven neutron source for radioisotope production, boron neutron capture therapy and fast neutron therapy. Nucl Instrum Methods Phys Res A 487(3):585-94 CrossRef
  7. Ono K, Masunaga S, Suzuki M et al (1999) The combined effect of boronophenylalanine and borocaptate in boron neutron capture therapy for SCCVII tumors in mice. Int J Radiat Oncol Biol Phys 43(2):431-36 CrossRef
  8. Han L, Yu J, Zhang W (2006) The enrichment technology for the separation and production of boron isotopes. J Isot 19(1):48-2
  9. Palko AA, Healy RM, Landau L (1958) Separation of boron isotopes. II. The BF₃ anisole system. J Chem Phys 28:214 CrossRef
  10. Jiang L, Han L, Zhang W et al (2007) Decomposition reaction in separation of boron isotopes by chemical exchange reaction and distillation. Chem Eng (China) 35(3):26-9
  11. Ivanov VA, Katalnikov SG (2001) Physico-chemical and engineering principles of boron isotopes separation by using BF₃–anisole BF₃ system. Sep Sci Technol 36(8-):1737-768 CrossRef
  12. McCandless FP, Herbst RS (1995) Separation of the isotopes of boron by chemical exchange reactions. U.S. patent 5,419,887[P]. 1995-5-30
  13. Palko AA, Drury JS (1967) Fractionation of boron isotopes between boron trifluoride and its molecular addition compounds. J Chem Phys 47:2561 CrossRef
  14. Katal’nikov SG, Paramonov PM, Nedzvetskii VS (1967) Separation of boron isotopes using isotopic exchange between BF₃ and a complex of BF₃ with phenetole. Sov At Energy 22(4):372-77 CrossRef
  15. McLaughlin DE, Tamres M (1960) The boron trifluoride addition compounds of dimethyl ether and diethyl ether 1, 2. J Am Chem Soc 82(21):5618-621 CrossRef
  16. Palko AA, Drury JS (1969) The chemical fractionation of boron isotopes. Adv Chem Ser 89:40-6 CrossRef
  17. Palko AA (1959) Separation of boron isotopes in the bench-scale boron fluoride–anisole unit. Ind Eng Chem 51(2):121-24 CrossRef
  18. Huang Y, Cheng S, Xu J et al (2011) Research on chemical exchange process of boron isotope separation. Procedia Eng 18:151-56 CrossRef
  19. Ownby PD (2004) The boron trifluoride nitromethane adduct. J Solid State Chem 177(2):466-70 CrossRef
  20. Palko AA (1959) Separation of boron isotopes. III. The / n-butyl sulfide BF system. J Chem Phys 30:1187 CrossRef
  21. Bai P, Li X, Wu J et al (2006) Determination of boron isotope abundance by the inductively coupled plasma-mass spectrometry. Nucl Tech 29(9):701-04
  
• 作者单位：Xiaoqin Wu (1)
  Peng Bai (1)
  Xianghai Guo (1)
  Nana He (1)
  
  1. School of Chemical Engineering and Technology, Tianjin University, Tianjin, China
  
• ISSN：1588-2780

文摘

Although methods of boron isotopes separation were intensively pursued about 60?years, the chemical exchange distillation is the only method that has been applied in industrial scale production of 10B. The present anisole BF3 system suffers from the drawbacks like high melting point, relatively low separation coefficient and instability under reaction conditions, which demand a continuous search for more effective and efficient donors for boron isotope separation. A series of fluoro-substituted anisole derivatives were screened in this paper, among which 2,4-difluoro anisole exhibited good properties compared with anisole. Studies on the boron trifluoride and 2,4-difluoro anisole adduct, its thermodynamic and physical properties related to large-scale isotopic separation is reported. The results showed that 2,4-difluoro anisole is better than anisole in separation coefficient, freezing point and stability under pyrolysis conditions, which suggest a further detailed investigations on boron trifluoride and 2,4-difluoro anisole adduct.