ca01 only detailed ToC 1..24

02.03.2013 Views
158 Science of Synthesis 4.4 Silicon Compounds Me 2Si O Br Bu3SnH, AIBN Ph O benzene, reflux Me2Si DMF, KF H2O2 Ph HO Ph 56 57 Finally, no consideration of the chemistry of Æ-haloalkylsilanes would be complete without mention of Ruppert s reagent [101,102] (58). In the presence of a source of fluoride (usually tetrabutylammonium fluoride), the reagent will deliver a trifluoromethyl group to carbonyl groups of aldehydes and ketones, [103,104] esters, [105] and a variety of other functional groups (Scheme 18). The exceptional versatility of the reagent is revealed in an excellent review from Prakash and Yudin. [102] Scheme 18 Trifluoromethylation of Carbonyl Compounds with Ruppert s Reagent [101–104] R 1 O R 2 F3CSiMe3 58 TBAF (cat.) HO CF 3 R 1 R 2 HO

References 159 References [1] Hamann, L. G.; Jones, T. K., In Encyclopedia of Reagents for Organic Synthesis, Paquette, L. A., Ed.; Wiley: New York, (1995); Vol. 2, p 1179. [2] Anderson, R., Synthesis, (1985), 717. [3] Tamao, K., In Encyclopedia of Reagents for Organic Synthesis, Paquette, L. A., Ed.; Wiley: New York, (1995); Vol. 2, p 1153. [4] Gross, R. S., In Encyclopedia of Reagents for Organic Synthesis, Paquette, L. A., Ed.; Wiley: New York, (1995); Vol. 2, p 1133. [5] Jones, T. K.; Hamann, L. G., In Encyclopedia of Reagents for Organic Synthesis, Paquette, L. A., Ed.; Wiley: New York, (1995); Vol. 5, p 2833. [6] Schraml, J.; Včelµk, J.; Englehardt, G.; Chvalovsky, V., Collect. Czech. Chem. Commun., (1978) 41, 3758. [7] Broicher, V.; Geffken, D., J. Organomet. Chem., (1990) 381, 315. [8] Olah, G. A.; Doggweiler, H.; Felberg, J. D.; Frohlich, S., J. Org. Chem., (1985) 50, 4847. [9] Auner, N.; Grobe, J., J. Organomet. Chem., (1980) 188, 151. [10] Schmidbaur, H.; Malisch, W., Angew. Chem., (1969) 81, 329; Angew. Chem. Int. Ed. Engl., (1969) 8, 372. [11] Tamao, K.; Kumada, M., J. Organomet. Chem., (1971) 30, 339. [12] Liu, E. K. S.; Lagow, R. J., J. Organomet. Chem., (1978) 145, 167. [13] Yoshioka, H.; Shimizu, M.; Yagihashi, F.; Takahata, T.; Yamamoto, A., (Jpn. Kokai Tokkyo Koho), JP 02 290 884 [90 290 884], (1990); Chem. Abstr., (1991) 114, 207493f. [14] Whitmore, F. C.; Sommer, L. H., J. Am. Chem. Soc., (1946) 68, 481. [15] Roberts, J. D.; Dev, S., J. Am. Chem. Soc., (1951) 73, 1879. [16] Nagai, Y.; Kosugi, M.; Takeuchi, K.; Migita, T., Tetrahedron, (1970) 26, 2791. [17] Gilman, H.; Nobis, J. F., J. Am. Chem. Soc., (1950) 72, 2629. [18] Hurd, D. T., J. Am. Chem. Soc., (1945) 67, 1814. [19] Hauser, C. R.; Hance, C. R., J. Am. Chem. Soc., (1952) 74, 5091. [20] Cartledge, F. K.; Jones, J. P., J. Organomet. Chem., (1974) 67, 379. [21] Olah, G. A.; Rasul, G.; Heilenger, L.; Bausch, J.; Prakash, G. K. S., J. Am. Chem. Soc., (1992) 114, 7737. [22] Seyferth, D.; Duncan, D. P., J. Am. Chem. Soc., (1978) 100, 7734. [23] Kendall, J. K.; Engler, T. A.; Shecter, H., J. Org. Chem., (1999) 64, 4255. [24] Schubert, U.; Steib, C.; Weiss, K., J. Organomet. Chem., (1986) 311, C1. [25] Bach, R. D.; Klix, R. C., Tetrahedron Lett., (1986) 27, 1983. [26] Kessar, S. V.; Singh, P.; Kaur, N. P.; Chwala, U.; Shukla, K.; Aggarwal, P.; Venugopal, D., J. Org. Chem., (1991) 56, 3908. [27] Fry, A. J.; Porter, J. M.; Fry, P. F., J. Org. Chem., (1996) 61, 3191. [28] Chen, C.-W.; Beak, P., J. Org. Chem., (1986) 51, 3325. [29] Brook, A. G., J. Am. Chem. Soc., (1957) 79, 4373. [30] Olah, G. A.; Berrier, A. L.; Field, L. D.; Prakash, G. K. S., J. Am. Chem. Soc., (1982) 104, 1349. [31] Vcelµk, J.; Chvalovsky, V.; Voronkov, M. G.; Pukhnarevich, V. B.; Pestunovich, V. A., Collect. Czech. Chem. Commun., (1978) 41, 386. [32] Cunico, R. F.; Gill, H. S., Organometallics, (1992) 1,1. [33] Reetz, M. T.; Kliment, M.; Plachky, M.; Greif, N., Chem. Ber., (1976) 109, 2728. [34] Tamao, K.; Kumada, M., J. Organomet. Chem., (1971) 30, 329. [35] Chou, S.-S. P.; Kuo, H.-L.; Wang, C.-J.; Tsai, C.-Y.; Sun, C.-M., J. Org. Chem., (1989) 54, 868. [36] Hudrlik, P. F.; Arcoleo, J. P.; Schwartz, R. H.; Misra, R. N.; Rona, R. J., Tetrahedron Lett., (1977), 591. [37] Davis, A. P.; Hughes, G. J.; Lowndes, P. R.; Robbins, C. M.; Thomas, E. J.; Whitham, G. H., J. Chem. Soc., Perkin Trans. 1, (1981), 1934. [38] Shimizu, M.; Yoshioka, H., Tetrahedron Lett., (1989) 30, 967. [39] Wilt, J.; Belmonte, F. G.; Zieske, P. A., J. Am. Chem. Soc., (1983) 105, 5665. [40] Barrett, A. G. M.; Hill, J. M.; Wallace, E. M., J. Org. Chem., (1992) 57, 386. [41] Coelho, P.; Blanco, L., Tetrahedron Lett., (1998) 39, 4261. [42] Brook, A. G.; Duff, J. M.; Anderson, D. G., Can. J. Chem., (1970) 48, 561. [43] Koreeda, M.; George, I. A., Chem. Lett., (1990), 83. [44] Barrett, A. G. M.; Flygare, J. A., J. Org. Chem., (1991) 56, 638. [45] Kobayashi, T.; Pannell, K. H., Organometallics, (1991) 10, 1960.

Page 1: Science of Synthesis Houben-Weyl Me


Page 8 and 9: 8 Science of Synthesis Category 1:

Page 11 and 12: Volume 1: Compounds withTransition

Page 13 and 14: Table of Contents Volume 2 13 Volum

Page 15 and 16: Table of Contents 15 Volume 4: Comp

Page 17 and 18: Table of Contents 17 4.4.27 Product



Page 23: Table of Contents 23 5.3.13 Product

Page 27 and 28: 2001 Georg Thieme Verlag Rüdigerst

Page 29 and 30: 1.1 Product Class 1: Organometallic

Page 31 and 32: 1.1 Product Class 1: Organometallic

Page 33 and 34: 1.1.1 Nickel Complexes of 1,3-Diene

Page 35 and 36: 1.1.1 Nickel Complexes of 1,3-Diene

Page 37 and 38: 1.1.2 Nickel-Allyl Complexes 37 tra

Page 39 and 40: 1.1.2 Nickel-Allyl Complexes 39 Bis

Page 41 and 42: 1.1.2 Nickel-Allyl Complexes 41 App

Page 43 and 44: 1.1.2 Nickel-Allyl Complexes 43 NiC

Page 45 and 46: 1.1.2 Nickel-Allyl Complexes 45 Sch

Page 47 and 48: 1.1.2 Nickel-Allyl Complexes 47 Sch

Page 49 and 50: 1.1.3 Nickel-Alkyne Complexes 49 Ca

Page 51 and 52: 1.1.3 Nickel-Alkyne Complexes 51 (2

Page 53 and 54: 1.1.3 Nickel-Alkyne Complexes 53 Sc

Page 55 and 56: 1.1.3 Nickel-Alkyne Complexes 55 at

Page 57 and 58: 1.1.3 Nickel-Alkyne Complexes 57 Sc

Page 59 and 60: 1.1.3 Nickel-Alkyne Complexes 59 en

Page 61 and 62: 1.1.3 Nickel-Alkyne Complexes 61 of

Page 63 and 64: 1.1.4 Nickel-Alkene Complexes 63 Bi

Page 65 and 66: 1.1.4 Nickel-Alkene Complexes 65 Sc

Page 67 and 68: 1.1.4 Nickel-Alkene Complexes 67 1.

Page 69 and 70: 1.1.4 Nickel-Alkene Complexes 69 Sc

Page 71 and 72: 1.1.4 Nickel-Alkene Complexes 71 [5


Page 75 and 76: 1.1.4 Nickel-Alkene Complexes 75 4-


Page 79 and 80: References 79 References [1] Chetcu

Page 81 and 82: References 81 [98] Tsuda, T.; Mizun


Page 86 and 87: 86 Biographical Sketches Rinaldo Po

Page 88 and 89: 88 2.6.4.2.2 Variation 2: Two-Elect

Page 90 and 91: 90 2.6 Product Class 6: Organometal

Page 92 and 93: 92 Science of Synthesis 2.6 Complex




Page 100 and 101: 100 Science of Synthesis 2.6 Comple




















Page 141 and 142: 141 Science of Synthesis Houben-Wey

Page 143 and 144: 2002 Georg Thieme Verlag Rüdigerst

Page 145 and 146: 4.4.27 Product Subclass 27: Æ-Halo

Page 147 and 148: 4.4.27 Æ-Haloalkylsilanes 147 Sche

Page 149 and 150: 4.4.27 Æ-Haloalkylsilanes 149 dros

Page 151 and 152: 4.4.27 Æ-Haloalkylsilanes 151 4.4.

Page 153 and 154: 4.4.27 Æ-Haloalkylsilanes 153 In g

Page 155 and 156: 4.4.27 Æ-Haloalkylsilanes 155 4.4.

Page 157: 4.4.27 Æ-Haloalkylsilanes 157 Æ-H

Page 161: References 161 [93] Bruno, J. W.; S

Page 164 and 165: 164

Page 166 and 167: 166 Biographical Sketches Alan Spiv

Page 168 and 169: 168 5.1.22 Product Subclass 22: Ary

Page 170 and 171: 170 Science of Synthesis 5.1 German



Page 176 and 177: 176 References [43] Eaborn, C.; Var

Page 178 and 179: 178 Abbreviations Chemical (cont.)

Page 180 and 181: 180 Abbreviations Ligands (cont.) 2

Page 182: 182 Abbreviations General (cont.) q

complexes

synthesis

subclass

method

soln

mixture

compounds

ligands

stirred

organic

detailed

www.thieme-chemistry.com

ca01 only detailed ToC 1..24

ca01 only detailed ToC 1..24 ... View more ca01 only detailed ToC 1..24

Delete template?

Save as template ?

ca01 only detailed ToC 1..24 ca01 only detailed ToC 1..24