Skip to main content
SpringerLink
Log in

Synthesis and applications of fluorinated telechelic monodispersed compounds

  • Chapter
  • First Online:
Polymer Synthesis Oxidation Processes

Part of the book series: Advances in Polymer Science ((POLYMER,volume 102))

Abstract

Different methods of synthesis involved in the preparation of fluorinated telechelic monodispersed compounds are described. First, a bibliographical approach develops the molecules in which the fluorine atoms are located on the main chain: obtaining by chemical change of fluorinated molecules (e.g. diacids, telomers), by bistelomerization and by direct or special syntheses. In a second part, investigations concerning the different preparations and uses of fluorinated telechelic molecules in which the fluorinated groups are branched on the back-bone are mentioned. Synthetic methods of obtaining 1,x-diols where 1≦x≦4 are described: diols prepared from diamines, by condensation, by simple addition of fluorinated telogens onto difunctional olefines. Furthermore, other novels syntheses such as the ring opening polymerization of fluorinated oxetanes lead to these compounds. In both parts, several chemical and physical parameters are supplied and the applications described.

This is a preview of subscription content, log in via an institution to check access.

Access this chapter

Log in via an institution

Institutional subscriptions

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

5 References

  1. Field DE (1974) US Patent 3,852,222 (12/03/74) Chem Abst 82: 99139e

    Google Scholar 

  2. Bloechl W (1969) Ger Patent 1,925,555 (05/20/69) Chem Abst 74: 87347t

    Google Scholar 

  3. Gosnell R, Hollander J (1967) J Macromol Sci Phys B, 1: 831

    Google Scholar 

  4. Takakura T, Yamabz M, Kato M (1985) Nippon Kagaku Kaishi 11: 2208 (Chem Abst 105: 175822k)

    Google Scholar 

  5. Hollander J, Trischler FD, Edward ES (1967) Amer Chem Soc Div Polym Chem Prepints 8: 1149 (Chem Abst 70: 97293d)

    Google Scholar 

  6. Greenwald RB, Evans DH (1976) J Org Chem 41: 1470

    Google Scholar 

  7. Lau KS, Kelleghan WJ PCT Int Appl No 8, 601, 504 (03/13/86)

    Google Scholar 

  8. Boutevin B, Robin JJ (1992) Advances in Polym Sci 102: 111

    Google Scholar 

  9. Lovelace AM, Rausch DA, Postelnek W (1958) Aliphatic fluorine compounds, Reinhold, New York, p 141

    Google Scholar 

  10. Mc Bee ET, Marzluff WF, Pierce OR (1952) J Am Chem Soc 74: 444

    Google Scholar 

  11. Wall LA (1972) Fluoropolymers, Wiley Intersc New York, p 201

    Google Scholar 

  12. Haszeldine RN (1955) J Chem Soc 4291

    Google Scholar 

  13. Haszeldine RN (1951) Nature 167: 139

    Google Scholar 

  14. Evans DEM, Tatlow JC (1954) J Chem Soc 3779

    Google Scholar 

  15. Fear EP, Thrower J, Veitch J (1955) J Appl Chem 5: 589

    Google Scholar 

  16. Knunyants IL, Shoshkina VV, Chich-Yuan L (1959) Proceed Acad USSR 971

    Google Scholar 

  17. Haszeldine RN (1951) J Chem Soc 586

    Google Scholar 

  18. Stacey M, Tatlow JC, Sharpe AG (1965) Advances in Fluorine Chem 4: 93

    Google Scholar 

  19. Guizard C, Cheradame H (1979) J Fluor Chem 13: 173

    Google Scholar 

  20. Haszeldine RN, Osborne JE (1955) J Chem Soc 3880

    Google Scholar 

  21. Mc Genty, British Patent 642 459 (Chem Abst 1951: 3866)

    Google Scholar 

  22. Jenkins AD (1967) Advances in Free Rad Chem 2: 139

    Google Scholar 

  23. Burdon J, Tatlow JC (1958) J Appl Chem 8: 293

    Google Scholar 

  24. Chambers RD, Lindley AA, Philpot PD, Fielding HC, Hutchinson J, Whittaker G (1978) J Chem Soc Perkin I 216

    Google Scholar 

  25. Husain SZ, Plevey RG, Tatlow JC (1986) Bull Soc Chim Fr 6: 891

    Google Scholar 

  26. Haszeldine RN, Steek BR (1953) J Chem Soc 1592

    Google Scholar 

  27. Miller WT, Howald J. (1952) ACS Meeting

    Google Scholar 

  28. Barnhart WS, Wade RM, US Patent 2,806,865 (1957)

    Google Scholar 

  29. Ehrenfeld RL US Patent 2,788,375 (1957)

    Google Scholar 

  30. Henne AL, Krauss DW (1951) J Amer Chem Soc 73: 1791

    Google Scholar 

  31. Henne AL, Krauss DW (1951) J Amer Chem Soc 73: 5503

    Google Scholar 

  32. Boutevin B, Cals J, Pietrasanta Y (1975) Eur Polym J 12: 225

    Google Scholar 

  33. Boutevin B, Pietrasanta Y (1973) Tetrahedron Lett 12: 219

    Google Scholar 

  34. Boutevin B, Pietrasanta Y (1975) Europ Polym J 12: 219

    Google Scholar 

  35. Boutevin B, Pietrasanta Y (1989) In: Allen G, Bevington JC, Eastmond AL (eds) Comprehensive Polymer Sciences, vol 3, Telomerization, Pergamon, Oxford

    Google Scholar 

  36. Barnhart WS, Granford NJ (Kellog Corp.), US Patent 2,770,659 (11/13/56)

    Google Scholar 

  37. Hugh LR (ICI) Ger Patent 1,233,375 (1967)

    Google Scholar 

  38. Dannels BF, Fifolt MJ, Tang DY, Amherst E, US Patent 4,808,760 (02/28/89)

    Google Scholar 

  39. Dedek V, Chvatal Z (1986) J Fluor Chem 31: 363

    Google Scholar 

  40. Brace NO, US Patent 3,145,222 (1961) Chem Abst 61: 10589g

    Google Scholar 

  41. Rondestvedt CS (Dupont) French Patent 1,521,774 (1968) Chem Abst 71: 2955

    Google Scholar 

  42. Iserson H, Magazzu J, Osburne S, Ger Patent 2,130,378 (1972)

    Google Scholar 

  43. Caporiccio G, Bargigia G, Tonelli C, Tortelli N Eur Patent Appl 194,781 (1986) Chem Abst 106: 69110k

    Google Scholar 

  44. Paleta O, Posta A (1966) Coll Czech Chem 31: 2389

    Google Scholar 

  45. Barnhart WS, Wade RH, US Patent 2,938,888 (1960)

    Google Scholar 

  46. Kim YK, Pierce OR (1968) J Org Chem 33 (1): 442

    Google Scholar 

  47. Bedford CD, Baum K (1980) J Org Chem 45: 347

    Google Scholar 

  48. Caporiccio G, Bargigia G, Tonelli C, Tortelli V, US Patent 4,731,170 (03/15/88)

    Google Scholar 

  49. Caporiccio G, Bargigia G, Tonelli C Eur Patent Appl 200,908 (03/27/88)

    Google Scholar 

  50. Tortelli V, Tonelli C (1990) J Fluor Chem 47: 199

    Google Scholar 

  51. Rice DE (1968) Polymer Lett 6: 335

    Google Scholar 

  52. McLoughlin VCR (1968) Tetrahedron Lett 46: 4761

    Google Scholar 

  53. Critchley JP, McLoughlin VCR, Thrower J, White IM (1970) Br Polym J 2: 288

    Google Scholar 

  54. Barnhart WS, Wade RH, US Patent 2,904,567 (1959)

    Google Scholar 

  55. Paleta O, Posta A (1968) Coll Czech Chem Commun 33: 2970

    Google Scholar 

  56. Boutevin B, Ranjalahy L, Rousseau A (1990) J Fluor Chem (submitted for publication)

    Google Scholar 

  57. Hauptschein M, Braid M (1961) J Amer Chem Soc 83: 2500

    Google Scholar 

  58. Wujclak DW, Wade RH, Barnhart WS, US Patent 2,824,897 (02/25/58)

    Google Scholar 

  59. Battais A, Boutevin B, Pietrasanta Y, Sarraf T (1982) Makromol Chem 183: 2359

    Google Scholar 

  60. Boutevin B, Pietrasanta Y (ATOCHEM) French Patent No 8,801,882 (1988)

    Google Scholar 

  61. Battais A, Boutevin B, Hugon JP, Pietrasanta Y (1980) J Fluor Chem 16: 397

    Google Scholar 

  62. Ameduri B, Boutevin B, Lecrom C, Pietrasanta Y, Parsy R (1988) Makromol Chem 189: 2545

    Google Scholar 

  63. Ameduri B, Boutevin B, J Poly Sci, Polym Chem (in press)

    Google Scholar 

  64. Alfiguigui C, Ameduri B, Boutevin B, (unpublished results)

    Google Scholar 

  65. Brace NO, US Patent 3,016,407 (01/09/62)

    Google Scholar 

  66. Piccardi P, Massardo P, Modena M, Santoro E (1973) J Chem Soc Perkin I: 982

    Google Scholar 

  67. Smeltz KL (Dupont) US Patent 3,055,953 (1962)

    Google Scholar 

  68. Dolgopol'Skii IM, Dobina KA, Sinaiskaya MI, Konshin AI, Kamysheva SA, Balashova LG Russ Patent 282,307 (09/28/70) Chem Abst 74: 87374z

    Google Scholar 

  69. Haszeldine RN (1954) Ann Reports 51: 279

    Google Scholar 

  70. Husted DR, Ahlbrecht AH (1953) J Amer Chem Soc 75: 1605

    Google Scholar 

  71. Fisher H, Ger Patent 1,944,381 (1971)

    Google Scholar 

  72. Boutevin B, Dongala EB, Pietrasanta Y (1981) J Fluor Chem 17: 113

    Google Scholar 

  73. Ref 11 p 199

    Google Scholar 

  74. British Patent 797,795 (07/09/58)

    Google Scholar 

  75. Buist JM, Gudgeon H (1970) Advances in polyurethane technology, Elsevier, Amsterdam

    Google Scholar 

  76. Malichenko BF, Yazlovitskii AV, Nesteron AE (1970) Vysokomol Svedin Ser A 12 (8): 1700 (Chem Abst 73: 120958x)

    Google Scholar 

  77. Bonanni AP, US Naval Air Engineering Center Report NO NAEC AML 1636 (03/13/67)

    Google Scholar 

  78. Hollander J, Trischler FD, Gosnell RB (1967) J Poly Sc A, 1 5: 2757

    Google Scholar 

  79. Ref 11, p 213

    Google Scholar 

  80. Ref 11, p 215

    Google Scholar 

  81. Ref 11, p 218

    Google Scholar 

  82. Takakura T, Kato M, Yamabe M (1990) Makromol Chem 191: 625

    Google Scholar 

  83. Yoon SC, Ratner BD (1986) Macromolecules 19: 1068

    Google Scholar 

  84. Pietrusza EW, Pederson JR (Allied Chem) US Patent 3,573,250 (03/30/71) Chem Abst 75: 37022h

    Google Scholar 

  85. Kakimoto M, Harada S, Oishi Y, Imai Y (1987) J Polym Sc (Polym Chem) 25: 2747

    Google Scholar 

  86. Morgan PW (Dupont) US Patent 3,373,139 (03/12/68) Chem Abst 68: 96752z

    Google Scholar 

  87. Saegusa Y, Kukiki M (in press)

    Google Scholar 

  88. O'Rear JG, Griffith JR, Reines SA (1971) J Paint Techno 43 (552): 113

    Google Scholar 

  89. Griffith JR, O'Rear JG, US Patent 4,045,408 (08/30/77)

    Google Scholar 

  90. Ohmori A (Daikin Kogyo Co) British Patent 7,924,300 (09/28/79)

    Google Scholar 

  91. Kwolek SL (Dupont) US Patent 3,328,352 (06/27/67) Chem Abst 68: 60466v

    Google Scholar 

  92. Knunyants IL, Vinogadova SV, Livshits BR, Russ Patent 226,845 (09/12/68) Chem Abst 70: 48054t

    Google Scholar 

  93. Fusaro R (1983) Nasa Nemo 21 (12) Chem Abst 99: 160971q

    Google Scholar 

  94. Fusaro R (1984) Asle Trans 27 (3): 189 (Chem Abst 101: 133539h)

    Google Scholar 

  95. Fusaro R, Hady W (1984) Nasa Tech Memo (1984), Sci Tech Aerosp Rep 22 (15) (Chem Abst 102: 27793x)

    Google Scholar 

  96. Delvigs P (1986) Nasa Tech Nemo 1985 Sci Tech Aerosp Rep 24 (3) (Chem Abst 104: 208 176k)

    Google Scholar 

  97. Saint Clair AK, Waynz S, Sample J (1985) 21 (4): 28 (Chem Abst 104: 150860k)

    Google Scholar 

  98. Saint Clair AK, Saint Clair TL, US Patent Appl 643,589 (07/10/89) Chem Abst 106: 197 320r

    Google Scholar 

  99. Green HE, Jones RJ, O'Rell MK (TWR Inc) US Patent 4,173,700 (11/06/79) Chem Abst 92: 95022v

    Google Scholar 

  100. Jones RJ, O'Rell MK, Hom JM (TWR Inc) US Patent 4,111,906 (09/05/78)

    Google Scholar 

  101. Jones RJ, O'Rell MK, Hom JM (TWR Inc) US Patent 4,203,922 (05/20/80)

    Google Scholar 

  102. Jones RJ, Chang GE, Powell SH, Green HE (TWR Inc) 1982, Polyimides Synth Charact Appl 2: 1117

    Google Scholar 

  103. Shoji T, Masahiro O (Mitsui Toatsu Chem) Europ Patent Appl EP 234,882 (09/02/87) Chem Abst 108: 95747j

    Google Scholar 

  104. Masahiro O, Saburo K (Mitsui Toatsu Chem) Jap Patent 62,185,715 (08/14/87) Chem Abst 108: 76 724h.

    Google Scholar 

  105. Shumichi N, Koji F (Hitachi Ltd) Europ Patent Appl 142,149 (05/22/85) Chem Abst 103: 125 168n

    Google Scholar 

  106. Hitachi Ltd Jap Patent 5,976,451 (05/01/84) Chem Abst 102: 88 541k

    Google Scholar 

  107. Hitachi Ltd Jap Patent 5,891,430 (05/31/83) Chem Abst 120 594x

    Google Scholar 

  108. Hill Newman Evans R, (Union Carbide Corp) Europ Patent Appl 239,804 (10/07/87) Chem Abst 108: 39 088h

    Google Scholar 

  109. Farah BS, Gilbert EE, Sibilia JP (1965) J Org Chem 30: 998

    Google Scholar 

  110. O'Rear JG, Griffith JR, US Patent 3,879,430 (1975) Chem Abst 83: 58638

    Google Scholar 

  111. N'Guyen TT, Amey RL, Martin JC (1982) J Org Chem 47: 1024

    Google Scholar 

  112. Sepiol J, Soulen RL (1984) J Fluor Chem 24: 61

    Google Scholar 

  113. Keller TM (1985) J Polym Sc, Polym Chem Ed 23 (9): 2557

    Google Scholar 

  114. Griffith JR, O'Rear JG (1987) Poly Sci Techno 35: 63

    Google Scholar 

  115. Griffith JR, O'Rear JG, US Patent 4,452,998 (06/05/84)

    Google Scholar 

  116. Griffith JR, O'Rear JG, US Patent 4,578,508 (03/25/86)

    Google Scholar 

  117. Boutevin B, Pietrasanta Y, (1988) Les Acrylates et Polyacrylates Fluorés; Dérivés et Applications EREC Ed France

    Google Scholar 

  118. Mc Loughlin VCR, Thrower J. (1969) Tetrahedron Lett 25: 5921

    Google Scholar 

  119. Mc Loughlin VCR, Thrower J, US Patent 3,408,411 (10/29/68)

    Google Scholar 

  120. McLoughlin VCR, Thrower J, British Patent 1,208,451 (05/24/67)

    Google Scholar 

  121. Mc Loughlin VCR, Thrower J, Hewtins MAH, Pipett JS, White MA (Royal Aircraft Establish) Technical Report 70, 160 Sept 1970 UDC 678, 674

    Google Scholar 

  122. Webster JA, Butler JM, Morrow TJ (1972) Polym Preprint Amer Chem Soc Div Polym Chem 13 (1): 612

    Google Scholar 

  123. Webster JA (1972) Nuova Chim 48 (10): 51

    Google Scholar 

  124. Evers RC (1974) Polym Preprint Amer Chem Soc Div Polym Chem 15 (1): 685 (Chem Abst 84: 17 775p)

    Google Scholar 

  125. Ohsaka Y, Kobayashi T, Kubo M (Daïkin Ind Ltd) Eur Patent Appl 285,160 (03/31/88)

    Google Scholar 

  126. Tarrant P, Bull RN (1988) J Fluor Chem 40: 201

    Google Scholar 

  127. Middleton WJ, Lindsey Jr RV (1964) J Amer Chem Soc 86: 4948

    Google Scholar 

  128. Allan M, Janzen AF, Willis CJ (1968) Can J Chem 46: 3671

    Google Scholar 

  129. Loeb SJ, Martin JW, Christopher CJ (1978) Can J Chem 56 (17): 2369

    Google Scholar 

  130. Green M, Lewis B (1973) J Chem Soc Chem Commun 4: 114

    Google Scholar 

  131. Green M, Lewis B (1975) J Chem Soc Chem Commun 12: 1137

    Google Scholar 

  132. Langkammerer CM (Dupont) US Patent 3,627,847 (12/14/71) Chem Abst 76: 591 189

    Google Scholar 

  133. Lichtenberger L (1971) Chimie et Ind 104 (7): 815

    Google Scholar 

  134. Simons JH (1950) Fluorine chemistry, Academic, New York, vol 1, p 401

    Google Scholar 

  135. Fielding HC, British Patent 1,130,822 (Chem Abst 70: 11 364t)

    Google Scholar 

  136. Battais A, Boutevin B, Moreau P (1979) J Fluor Chem 13 (1): 39

    Google Scholar 

  137. Battais A, Boutevin B, Pietrasanta Y, Sierra P (1981) J Fluor Chem 19: 35

    Google Scholar 

  138. Hollander J, Woolf C (Allied Chemical Co) Belg Patent 634,368 (1963)

    Google Scholar 

  139. Boerner D, Koerner G, Rossmy G, Ger Patent 2,062,816 (1972)

    Google Scholar 

  140. Hollander J, Woolf C (Allied Chemical Co) US Patent 3,177,187 (1965) Chem Abst 63: 500

    Google Scholar 

  141. Brace NO, Cornack WB (Dupont) US Patent 3,047,610 (1962) Chem Abst 61: 7834a

    Google Scholar 

  142. Henne AL, Latif KA (1953) J Indian Chem Soc 80 (12): 809

    Google Scholar 

  143. Dedek V, Hemer I (1985) Coll Czech Chem Commun 50: 2743

    Google Scholar 

  144. Lin WT, Chen CH, Hung HC, Chou HY, Hsun TF, Huang WY (1964) Ko Fen Tzu T'ung Hsun 6 (5): 363 Chem Abst 63: 16147

    Google Scholar 

  145. Joyce RN (Du Pont) US Patent 2,559,628 (1951)

    Google Scholar 

  146. Chutny B, Frantisek L, Dedek V (1969) Ustav Jad Vyzk 2237 (Chem Abst 74: 17 968)

    Google Scholar 

  147. Bloechl W, Ger Patent 2,052,579 (05/04/72) Chem Abst 77: 100 756j

    Google Scholar 

  148. Ugine Kuhlmann, French Patent 1,532,284 (01/02/67)

    Google Scholar 

  149. Foulletier L, Lalu JP, French Patent 2,031,650 (02/03/69)

    Google Scholar 

  150. Foulletier L, Lalu JP, Ger Patent 2,004,156 (08/06/70) Chem Abst 73: 110486c

    Google Scholar 

  151. Koemm U, Getsler (Bayer) Ger Patent 3,319,368 (11/29/84) Chem Abst 102: 1985

    Google Scholar 

  152. Jap Patent 61,252,220 (11/10/86)

    Google Scholar 

  153. Lazerte JD, Guenthner RA (3M) Ger Patent 1,620,965 (05/17/73) Chem Abst 79: 67291v

    Google Scholar 

  154. Toukan SS, Hauptschein M, Ger Patent 2,239,709 (02/22/73) Chem Abst 79: 20652y

    Google Scholar 

  155. Toukan SS, Hauptschein M, US Patent 3,948,887 (04/06/76)

    Google Scholar 

  156. Toukan SS, Hauptschein M, US Patent 3,906,049 (09/16/77)

    Google Scholar 

  157. Hager BR, Toukan SS, Walter GJ (Pennwalt) Ger Patent 2,342,888 (03/07/72) Chem Abst 81: 153076b

    Google Scholar 

  158. Hager BR, US Patent 3,893,984 (07/08/75) Chem Abst 84: 5826t

    Google Scholar 

  159. Gervits LL, Makarov KN, Pletnev M Yu (1985) Zh Vses Khim 30 (6): 578 (Chem Abst 104: 131990m)

    Google Scholar 

  160. Tesero GC, US Patent 3,470,258 (09/30/69) Chem Abst 71: 123, 558m

    Google Scholar 

  161. Pavlik FJ (3M) US Patent 3,385,904 (05/28/68) Chem Abst 69: 26753x

    Google Scholar 

  162. Pavlik FJ (3M) US Patent 3,981,928 (09/21/76) Chem Abst 86: 16294k

    Google Scholar 

  163. Pavlik FJ (3M) US Patent 4,010,212 (03/01/77) Chem Abst 86: 189226t

    Google Scholar 

  164. Evans FW, Morton H (Allied Chem Co) US Patent 3,388,078 (06/11/68) Chem Abst 69: 28654q

    Google Scholar 

  165. Commeyras A, Calas P (PCUK) British Patent 2,486,526 (07/08/80)

    Google Scholar 

  166. Commeyras A, Calas P (PCUK) British Patent 2,486,522 (07/08/80)

    Google Scholar 

  167. Daikin Kogyo Co French Patent 1,535,485 (04/17/67) Chem Abst 71: 12585y

    Google Scholar 

  168. Daikin Kogyo Co French Patent 1,475,237 (04/07/66)

    Google Scholar 

  169. Blancou H, Commeyras A (1990) 1st French Symposium in Fluorine Chemistry (Eveux, France)

    Google Scholar 

  170. Abe T, Nagase S, Baba H (1973) Bull Chem Soc Jpn 46: 2524

    Google Scholar 

  171. Gresham JT (FMC Co) Ger Patent 2,245,722 (04/05/73)

    Google Scholar 

  172. Gresham JT, Skillman (FMC Co) US Patent 3,759,874 (09/18/73)

    Google Scholar 

  173. Dear REA, Falk RA, Mueller KL (Ciba Geigy) Ger Patent No 2,503,872 (10/30/75) Chem Abst 84: 45224b

    Google Scholar 

  174. Boutevin B, Hugon JP, Pietrasanta Y (1981) J Fluor Chem 17: 357

    Google Scholar 

  175. Amimoto Y, Daimon S, Okamoto M, Kodaya Y, Okamura K (Daikon Kogyo Co) Jap Patent 7,884,909 (08/26/78) Chem Abst 89: 214891c

    Google Scholar 

  176. Konrad W (Hoechst AG) Ger Patent 3,525,494 (07/17/85)

    Google Scholar 

  177. Ayari A, Szonyi S, Rouvier E, Cambon A (1990) J Fluor Chem 50: 67

    Google Scholar 

  178. Park JD, Rogers FE, Lacher JR (1961) J Amer Chem Soc 26: 2089

    Google Scholar 

  179. Mc Bee ET, Burton TM (1952) J Am Chem Soc 74: 3022

    Google Scholar 

  180. Rausch DA, Lovelace AM, Coleman Jr LE (1956) J Org Chem 21: 1328

    Google Scholar 

  181. French Patent (Ciba Geigy) 2, 235, 105 (1974)

    Google Scholar 

  182. Mc Bee ET, Roberts CW, Wilson jr G (1957) J Amer Chem Soc p 2323

    Google Scholar 

  183. Smeltz KC (Dupont) US Patent 3,478,116 (11/11/69) Chem Abst 72: 33199u

    Google Scholar 

  184. Smeltz KC (Dupont) US Patent 3,504,016 (03/31/70) Chem Abst 72: 122867v

    Google Scholar 

  185. Thayer Jr GL (Dupont) US Patent 3,510,458 (05/05/70) Chem Abst 73: 4744a

    Google Scholar 

  186. Smeltz KC (Dupont) US Patent 3,547,894 (02/28/69) Chem Abst 74: 113167f

    Google Scholar 

  187. Smeltz KC (Dupont) US Patent 3,578,701 (05/11/71) Chem Abst 75: 64665b

    Google Scholar 

  188. Vakhlamova LSH, Kashkin AV, Krylov AI, Kashkina GS, Sukhinin VS (1978) Zh Vses Khim 23 (3): 357 (Chem Abst 89: 110440p)

    Google Scholar 

  189. Harris JF, Coffman DD (1962) J Amer Chem Soc 84: 1553

    Google Scholar 

  190. Cook EW, Landrum J (1965) J Heterocyclic Chem 2: 327

    Google Scholar 

  191. Chambers RD, Grievson B (1985) J Chem Soc Perkin Trans I: 2215

    Google Scholar 

  192. Dmowski W (1986) J Fluor Chem 32: 255

    Google Scholar 

  193. Bargigia G, Tonelli C, Tato Marco (1987) J Fluor Chem 36: 449

    Google Scholar 

  194. Weinmayr J, (1963) J Org Chem 28: 492

    Google Scholar 

  195. Yohnosuke O, Takashi T, Shoji T, Eur Patent Appl (DAIKIN) 148,482 (12/26/83) Chem Abst 104: 69315

    Google Scholar 

  196. Persico DF, Gerhardt GE, Lagow RJ (1985) J Amer Chem Soc 107: 1197

    Google Scholar 

  197. Smith WC, US Patent 2,859,245 (1958)

    Google Scholar 

  198. Hasek WR, Smith WC, Engelhardt VA (1960) J Amer Chem Soc 82: 543

    Google Scholar 

  199. Sheppard WA (1964) J Org Chem 29 (1): 1

    Google Scholar 

  200. Hudlicky M (1976) Chemistry of organic fluorine compounds, Wiley

    Google Scholar 

  201. Sokoya A, Hiromaka S (1986) Sekiyu Gakkaishi 29 (2): 183

    Google Scholar 

  202. Santini G, Le Blanc M, Riess JG (1975) J Chem Soc Commun 16: 678

    Google Scholar 

  203. Yazlovitskii AV, Malichenko BF (1971) Vysokomol Svedin Ser A 13 (3): 734 (Chem Abst 74: 142711j)

    Google Scholar 

  204. Malichenko BF, Tsypina ON, Nestorov AE (1969) Vysokomol Svedin Ser B 11 (1): 67 (Chem Abst 70: 97296g)

    Google Scholar 

Download references

Author information

Authors and Affiliations

  1. Ecole Nationale Supérieure de Chimie de Montpellier, URA CNRS D 11930, 8 Rue Ecole Normale, 34053, Montpellier Cedex, France

    B. Améduri & B. Boutevin

Authors
  1. B. Améduri
    View author publications

    You can also search for this author in PubMed Google Scholar

  2. B. Boutevin
    View author publications

    You can also search for this author in PubMed Google Scholar

Rights and permissions

Reprints and permissions

Copyright information

© 1992 Springer-Verlag

About this chapter

Cite this chapter

Améduri, B., Boutevin, B. (1992). Synthesis and applications of fluorinated telechelic monodispersed compounds. In: Polymer Synthesis Oxidation Processes. Advances in Polymer Science, vol 102. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-55090-9_5

Download citation

  • DOI: https://doi.org/10.1007/3-540-55090-9_5

  • Received:

  • Published:

  • Publisher Name: Springer, Berlin, Heidelberg

  • Print ISBN: 978-3-540-55090-7

  • Online ISBN: 978-3-540-46690-1

  • eBook Packages: Springer Book Archive

Publish with us

Policies and ethics

Search

Navigation