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370 Alkoxo and Aryloxo Derivatives of Metals 107. W.J. Evans and M.S. Sollberger, Inorg. Chem., 27, 4417 (1988). 108. O. Poncelet, L.G. Hubert-Pfalzgraf, J.-C. Daran, and R. Astier, J. Chem. Soc., Chem. Commun., 1846 (1989). 109. O. Poncelet, L.G. Hubert-Pfalzgraf, and J.-C. Daran, Inorg. Chem., 29, 2882 (1990). 110. W.J. Evans, J.M. Olofson, and J.W. Ziller, J. Am. Chem. Soc., 112, 2308 (1990). 111. W.J. Evans, M.S. Sollberger, J.L. Shreeve, J.M. Olofson, J.H. Hain Jr, and J.W. Ziller, Inorg. Chem., 31, 2492 (1992). 112. W.J. Evans, T.J. Boyle, and J.W. Ziller, Organometallics, 12, 3998 (1993). 113. D.C. Bradley, H. Chudzynska, M.B. Hursthouse, and M. Motevalli, Polyhedron, 12, 1907 (1993). 114. M.J. McGeary, P.S. Coan, K. Folting, W.E. Streib, and K.G. Caulton, Inorg. Chem., 28, 3284 (1989). 115. P.S. Coan, M.J. McGeary, E.B. Lobkovsky, and K.G. Caulton, Inorg. Chem., 30, 3570 (1991). 116. M.J. McGeary, P.S. Coan, K. Folting, W.E. Streib, and K.G. Caulton, Inorg. Chem., 30, 1723 (1991). 117. W.J. Evans, R.E. Golden, and J.W. Ziller, Inorg. Chem., 30, 4963 (1991). 118. D.M. Barnhart, D.L. Clark, J.C. Gordon, J.C. Huffman, J.G. Watkin, and W.D. Zwick, J. Am. Chem. Soc., 115, 8461 (1993). 119. W.J. Evans, T.J. Deming, and J.W. Ziller, Organometallics, 8, 1581 (1989). 120. H.A. Stecher, A. Sen, and A.L. Rheingold, Inorg. Chem., 28, 3280 (1989). 121. W.J. Evans, T.J. Deming, J.M. Olofson, and J.W. Ziller, Inorg. Chem., 28, 4027 (1989). 122. P. Toledano, F. Ribot, and C. Sanchez, Acta Crystallogr., C46, 1419 (1990). 123. A. Sen, H.A. Stecher, and A.L. Rheingold, Inorg. Chem., 31, 473 (1992). 124. L.G. Hubert-Pfalzgraf, N. El Khokh, and J.-C. Daran, Polyhedron, 11, 59 (1992). 125. J.H. Timmons, J.W.L. Martin, A.E. Martell, P. Rudolf, A. Clearfield, J.A. Arner, S.J. Loeb, and C.J. Willis, Inorg. Chem., 19, 3553 (1980). 126. P.S. Gradeff, K. Yunlu, T.J. Deming, J.M. Olofson, R.J. Doedens, and W.J. Evans, Inorg. Chem., 29, 420 (1990). 127. D.C. Bradley, H. Chudzynska, M.B. Hursthouse, M. Motevalli, and Ruowen Wu, Polyhedron, 12, 2955 (1993). 128. D.C. Bradley, H. Chudzynska, M.B. Hursthouse, M. Motevalli, and Ruowen Wu, Polyhedron, 13, 1 (1994). 129. R.A. Andersen, D.H. Templeton, and A. Zalkin, Inorg. Chem., 17, 1962 (1978). 130. M. Wedler, J.W. Gilje, U. Pieper, D. Stalke, M. Noltemeyer, and F.T. Edelmann, Chem. Ber., 124, 1163 (1991). 131. W.A. Herrmann, R. Anwander, M. Kleine, and W. Scherer, Chem. Ber., 125, 1971 (1992). 132. W.A. Herrman, R. Anwander, and W. Scherer, Chem. Ber., 126, 1533 (1993). 133. D.M. Barnhart, D.L. Clark, J.C. Huffman, R.L. Vincent, and J.D. Watkin, Inorg. Chem., 32, 4077 (1993). 134. F.T. Edelmann, A. Steiner, D. Stalke, J.W. Gilje, S. Jagner, and M. H˚akansson, Polyhedron, 13, 539 (1994). 135. W.J. Evans, D.K. Drummond, L.A. Hughes, H. Zhang, and J.L. Atwood, Polyhedron, 7, 1693 (1988). 136. W.J. Evans, T.A. Vlibarri, L.R. Chamberlain, J.W. Ziller, and D. Alvarez Jr, Organometallics, 9, 2124 (1990). 137. W.J. Evans, T.A. Vlibarri, and J.W. Ziller, Organometallics, 10, 134 (1991). 138. W.J. Evans, R. Anwander, U.H. Berlekamp, and J.W. Ziller, Inorg. Chem., 34, 3583 (1995). 139. W.J. Evans, J.L. Shreeve, and J.W. Ziller, Organometallics, 13, 731 (1994). 140. J.R. van den Hende, P.B. Hitchcock, and M.F. Lappert, J. Chem. Soc., Chem. Commun., 1413 (1994); J. Chem. Soc., Dalton Trans., 2251 (1995). 141. J.R. van den Hende, P.B. Hitchcock, S.A. Holmes, M.F. Lappert, and S. Tian, J. Chem. Soc., Dalton Trans., 3933 (1995). 142. D.J. Duncalf, P.B. Hitchcock, and G.A. Lawless, Organomet. Chem., 506, 347 (1996).
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Alkoxo and Aryloxo Derivatives of M
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1 Introduction In 1978 the book ent
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1 INTRODUCTION 2 Homometallic Alkox
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Homometallic Alkoxides 5 to complet
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Table 2.1 (Continued) Homometallic
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Table 2.1 (Continued) Homometallic
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Table 2.1 (Continued) Homometallic
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Table 2.1 (Continued) Homometallic
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Homometallic Alkoxides 15 reactivit
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Homometallic Alkoxides 17 By contra
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Homometallic Alkoxides 19 2.3 React
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Homometallic Alkoxides 21 has been
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Homometallic Alkoxides 23 obtain on
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y Evans and co-workers: 160,161 Hom
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Homometallic Alkoxides 27 The heter
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Homometallic Alkoxides 29 not conve
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Homometallic Alkoxides 31 In view o
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2.7.2 Steric Factors Homometallic A
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Homometallic Alkoxides 35 (b) When
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Homometallic Alkoxides 37 2.8 Trans
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Homometallic Alkoxides 39 with orga
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2.9.1.1 Alkoxides of Be, Mg, Ca, Sr
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MfN⊲SiMe3⊳2g2thfx C2HOR, Cpy !C
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Homometallic Alkoxides 45 2.10 Misc
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Zr⊲CH2Bu t ⊳4 C 4RfOH benzene !
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2.10.5 By Insertion of Oxygen into
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Homometallic Alkoxides 51 First hom
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O M R M OR M OR RO M (M = Tl; R = M
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Homometallic Alkoxides 55 3. Nuclea
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Homometallic Alkoxides 57 explain t
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Decomposition (%) 100 80 60 40 20 0
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Table 2.6 Volatilities of tetravale
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Homometallic Alkoxides 63 deduced t
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Table 2.10 Vapour pressure of Ti, Z
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Homometallic Alkoxides 67 Table 2.1
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3.2.10 Alkoxides of Later 3d Metals
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Homometallic Alkoxides 71 Table 2.1
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Homometallic Alkoxides 73 affected
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Homometallic Alkoxides 75 the range
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Homometallic Alkoxides 77 several c
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Table 2.20 (Continued) Homometallic
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Homometallic Alkoxides 81 In toluen
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Bu t O Bu t O Bu t O Th O O Bu O t
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Homometallic Alkoxides 85 1H NMR st
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Homometallic Alkoxides 87 septet wa
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Homometallic Alkoxides 89 experimen
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Table 2.21 1 H NMR spectra of Al4(O
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Homometallic Alkoxides 93 3.5 Elect
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Homometallic Alkoxides 95 ligand fi
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Homometallic Alkoxides 97 susceptib
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10 −1 /xM 12 10 −200 −100 0 [
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Homometallic Alkoxides 101 alkoxide
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Homometallic Alkoxides 103 fragment
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Homometallic Alkoxides 105 The mass
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Homometallic Alkoxides 107 [Al⊲OP
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Homometallic Alkoxides 109 Under ca
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4.3.2 Phenol-Alcohol Exchange React
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4.4 Reactions with Alkanolamines Ho
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Homometallic Alkoxides 115 R D Pr i
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Homometallic Alkoxides 117 La(OPr i
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Homometallic Alkoxides 119 with the
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Homometallic Alkoxides 121 about 1.
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Homometallic Alkoxides 123 concentr
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Homometallic Alkoxides 125 and othe
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Homometallic Alkoxides 127 Interest
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OH Monofunctional bidentate HC N R
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Homometallic Alkoxides 131 metal al
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Homometallic Alkoxides 133 which yi
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shown in Eq. (2.286): O Mo2(OEt)6 H
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Homometallic Alkoxides 137 Phenyl i
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Homometallic Alkoxides 139 The 1990
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Eqs (2.312)-(2.315): where R D l-ad
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Homometallic Alkoxides 143 On the b
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Homometallic Alkoxides 145 The form
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Homometallic Alkoxides 147 On furth
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4.16 Interactions Between Two Diffe
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4Mo2(OPr i )6 + 18CO (excess) Homom
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isolobality of CR 0 and W⊲OR⊳3
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W2(OR)8 (R = CH2Bu t ) + CO + H2C C
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Homometallic Alkoxides 157 43. J.S.
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Homometallic Alkoxides 159 122. P.N
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Homometallic Alkoxides 161 201. A.
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Homometallic Alkoxides 163 281. R.C
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Homometallic Alkoxides 165 358. L.A
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Homometallic Alkoxides 167 430. M.R
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Homometallic Alkoxides 169 521. I.
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Homometallic Alkoxides 171 N.I. Koz
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Homometallic Alkoxides 173 694. R.C
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Homometallic Alkoxides 175 786. R.C
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Homometallic Alkoxides 177 876. J.
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Homometallic Alkoxides 179 966. H.
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Homometallic Alkoxides 181 1054. M.
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184 Alkoxo and Aryloxo Derivatives
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186 Alkoxo and Aryloxo Derivatives
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188 Alkoxo and Aryloxo Derivatives
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190 Alkoxo and Aryloxo Derivatives
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192 Alkoxo and Aryloxo Derivatives
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194 Alkoxo and Aryloxo Derivatives
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196 Alkoxo and Aryloxo Derivatives
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198 Alkoxo and Aryloxo Derivatives
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200 Alkoxo and Aryloxo Derivatives
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202 Alkoxo and Aryloxo Derivatives
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204 Alkoxo and Aryloxo Derivatives
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206 Alkoxo and Aryloxo Derivatives
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208 Alkoxo and Aryloxo Derivatives
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210 Alkoxo and Aryloxo Derivatives
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212 Alkoxo and Aryloxo Derivatives
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214 Alkoxo and Aryloxo Derivatives
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216 Alkoxo and Aryloxo Derivatives
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218 Alkoxo and Aryloxo Derivatives
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220 Alkoxo and Aryloxo Derivatives
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222 Alkoxo and Aryloxo Derivatives
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224 Alkoxo and Aryloxo Derivatives
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226 Alkoxo and Aryloxo Derivatives
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228 Alkoxo and Aryloxo Derivatives
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230 Alkoxo and Aryloxo Derivatives
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232 Alkoxo and Aryloxo Derivatives
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234 Alkoxo and Aryloxo Derivatives
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236 Table 4.1 (Continued) M-O Bond
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238 Alkoxo and Aryloxo Derivatives
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240 Alkoxo and Aryloxo Derivatives
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242 Alkoxo and Aryloxo Derivatives
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244 Table 4.3 Alkoxides of aluminiu
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246 Alkoxo and Aryloxo Derivatives
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248 Table 4.4 Alkoxides of germaniu
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250 Alkoxo and Aryloxo Derivatives
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252 Alkoxo and Aryloxo Derivatives
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254 Alkoxo and Aryloxo Derivatives
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256 Table 4.6 Alkoxides of scandium
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258 Alkoxo and Aryloxo Derivatives
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260 Alkoxo and Aryloxo Derivatives
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262 Alkoxo and Aryloxo Derivatives
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264 Table 4.7 Alkoxides of lanthani
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266 Alkoxo and Aryloxo Derivatives
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268 Alkoxo and Aryloxo Derivatives
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270 Table 4.8 (Continued) M-O Bond
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272 Alkoxo and Aryloxo Derivatives
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274 Alkoxo and Aryloxo Derivatives
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276 Table 4.9 Alkoxides of titanium
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278 Table 4.9 (Continued) Bond leng
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280 Alkoxo and Aryloxo Derivatives
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282 Alkoxo and Aryloxo Derivatives
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284 Alkoxo and Aryloxo Derivatives
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286 Alkoxo and Aryloxo Derivatives
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288 Alkoxo and Aryloxo Derivatives
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290 Alkoxo and Aryloxo Derivatives
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292 Alkoxo and Aryloxo Derivatives
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294 Alkoxo and Aryloxo Derivatives
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296 Alkoxo and Aryloxo Derivatives
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298 Alkoxo and Aryloxo Derivatives
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300 Table 4.11 Alkoxides of chromiu
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302 Table 4.11 (Continued) Metal M-
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304 Table 4.11 (Continued) M-O Bond
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306 Table 4.11 (Continued) M-O Bond
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308 Table 4.11 (Continued) M-O Bond
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310 Table 4.11 (Continued) M-O Bond
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312 Table 4.11 (Continued) M-O Bond
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314 Table 4.11 (Continued) M-O Bond
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316 Table 4.11 (Continued) Metal M-
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- Page 323 and 324: 322 Table 4.12 Alkoxides of mangane
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- Page 329 and 330: 328 Table 4.15 (Continued) M-O Bond
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- Page 333 and 334: 332 Table 4.16 Alkoxides of zinc, c
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- Page 349 and 350: 348 Table 4.18 Bimetallic alkoxides
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- Page 355 and 356: 354 Table 4.19 Heterometallic alkox
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- Page 359 and 360: 358 Table 4.20 Heterometallic alkox
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- Page 363 and 364: 362 Table 4.21 Heterometallic alkox
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- Page 367 and 368: 366 Table 4.22 (Continued) Coordina
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- Page 395 and 396: 394 Table 5.2 Chemical shifts from
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- Page 401 and 402: 400 Table 5.3 Scandium, yttrium, la
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- Page 407 and 408: 406 Table 5.4 Titanium and zirconiu
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420 Table 5.6 Chromium sub-group me
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422 Table 5.6 (continued) Metal Oxo
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424 Table 5.6 (continued) Metal Oxo
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426 Alkoxo and Aryloxo Derivatives
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428 Alkoxo and Aryloxo Derivatives
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430 Alkoxo and Aryloxo Derivatives
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432 Alkoxo and Aryloxo Derivatives
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434 Table 5.9 (continued) Metal Oxo
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436 Alkoxo and Aryloxo Derivatives
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438 Alkoxo and Aryloxo Derivatives
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440 Alkoxo and Aryloxo Derivatives
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442 Alkoxo and Aryloxo Derivatives
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1 INTRODUCTION 6 Metal Aryloxides T
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Metal Aryloxides 447 or both of the
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R1 OH O R2 R3NH2 −H2O Scheme 6.3
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Cl S N N OH O Cl Me 3C NH HN OH HO
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N OH N OH Me 3C Me3C HO HO N N OH H
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Metal Aryloxides 455 2Ln C 3Hg⊲C6
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Metal Aryloxides 457 Mixed halo, ar
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product metal aryloxide 1e,1f (Eqs
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Metal Aryloxides 461 Eqs 6.39 and 6
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O Mg Mg OAr O Metal Aryloxides 463
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3.7 From Metal Hydrides Metal Arylo
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Metal Aryloxides 467 Two other impo
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Metal Aryloxides 469 Table 6.1 Meta
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Table 6.3 W-OAr distances for vario
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Metal Aryloxides 473 At first it is
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Zr−O distance (Å) V−O distance
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Metal Aryloxides 477 as expected ar
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Metal Aryloxides 479 whereas R D Me
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where OAr = O But But H3C H3C O Ta
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PPh 2 Ph P Pt OAr PPh2 where OAr =
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6 SURVEY OF METAL ARYLOXIDES 6.1 Sp
- Page 487 and 488:
487 Na2[V(O) 2(OAr) 2]2.4H2O.DMF 6-
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489 [Tc(O)(OAr)(di-OAr)] 8-quin 2.0
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491 [Ni3⊲OAr⊳6][ClO4].EtOH 8-qu
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493 [Pt(OAr⊳2](tcnq) sq. planar P
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495 [Al(OAr) 3].MeOH 8-quin 1.850 (
- Page 497 and 498:
497 [Sb(OAr) 2⊲S2COEt⊳] pentago
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499 [Tc(O)(OAr)(N-salicylideneDD-gl
- Page 501 and 502:
Metal Aryloxides 501 A contribution
- Page 503 and 504:
503 Table 6.8 Metal bi-phenolates B
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505 Table 6.9 Metal binaphtholates
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507 [TiCl2(di-OAr)]2 two tetrahedra
- Page 509 and 510:
Metal Aryloxides 509 co-workers hav
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511 [Li⊲ 2-OAr⊳]3 planar Li3O3
- Page 513 and 514:
513 Table 6.11 Sodium aryloxides Bo
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Table 6.12 Potassium aryloxides Met
- Page 517 and 518:
Table 6.15 Magnesium aryloxides Met
- Page 519 and 520:
519 Table 6.18 Barium aryloxides Bo
- Page 521 and 522:
521 Table 6.19 Group 3 metal and la
- Page 523 and 524:
523 [Me4N]La2Na2⊲ 4-OAr⊳⊲ 3-O
- Page 525 and 526:
525 [Nd⊲OC6H3Ph- 6-C6H5⊳⊲OC6H
- Page 527 and 528:
527 [⊲THF⊳Li⊲ 2-OAr⊳2Sm⊲C
- Page 529 and 530:
529 [Eu⊲ 2-OAr⊳4⊲OAr⊳2⊲ 3
- Page 531 and 532:
531 [Yb(OAr) 3⊲THF⊳2].THF squar
- Page 533 and 534:
Metal Aryloxides 533 carbon atoms a
- Page 535 and 536:
535 [Cp Ł Th(OAr)⊲CH2SiMe3⊳2]
- Page 537 and 538:
Metal Aryloxides 537 amido compound
- Page 539 and 540:
539 Table 6.21 Titanium aryloxides
- Page 541 and 542:
541 [Ti2⊲ 2-OAr⊳2(OAr) 2Cl4]2 e
- Page 543 and 544:
543 [Ti(OAr) 2⊲NMe2⊳2] tetrahed
- Page 545 and 546:
545 [Ti(OAr) 3Bu t ] tetrahedral Ti
- Page 547 and 548:
547 [⊲ArO⊳2Ti⊲ 2-ButNDCC4Et4C
- Page 549 and 550:
549 [Cp⊲C5H3Me-Pri-1,2)Ti(OAr)Cl]
- Page 551 and 552:
551 [CpTi(OAr) 2⊲HPPh⊳] OC6H3Pr
- Page 553 and 554:
553 [Ti⊲di-OAr⊳Cl2].THF 6-coord
- Page 555 and 556:
555 Table 6.22 Zirconium aryloxides
- Page 557 and 558:
557 [Zr(Ind-OAr) 2] 1-indenylphenox
- Page 559 and 560:
559 [Cp2Zr(OAr)] 18-electron Zr, tw
- Page 561 and 562:
Metal Aryloxides 561 The thermal st
- Page 563 and 564:
Metal Aryloxides 563 can only arise
- Page 565 and 566:
565 1.839 (2) 138 1.854 (2) 140 [(t
- Page 567 and 568:
567 [V(OAr) 3-N-Li(THF) 3] tetrahed
- Page 569 and 570:
569 [V(O)(di-OAr)] 6-coord. V, both
- Page 571 and 572:
571 cis,mer-[Nb(OAr) 2Cl3(THF)] dis
- Page 573 and 574:
573 [Nb⊲OC6H3Ph- 4-C6H7⊳⊲OAr
- Page 575 and 576:
575 Table 6.26 Tantalum aryloxides
- Page 577 and 578:
577 [(THF)(ArO) 3Ta⊲DNND⊳Ta(OAr
- Page 579 and 580:
579 [Ta(OAr) 2Cl2⊲CH2C6H5⊳] tbp
- Page 581 and 582:
581 [Ta(OAr) 2Cl⊲ 6-C6Me6⊳] OC6
- Page 583 and 584:
583 [Ta(OAr)⊲OC6H3Pri- 2-CMeDCH2
- Page 585 and 586:
585 [f(TMEDA)Na⊲ 2-OAr⊳2g2Cr] 4
- Page 587 and 588:
587 Table 6.28 Molybdenum aryloxide
- Page 589 and 590:
589 [Mo2⊲OAr⊳5⊲NMe2⊳⊲HNMe
- Page 591 and 592:
591 [Mo(Hdi-OAr) 2] 6-coord. Mo, on
- Page 593 and 594:
593 [W2⊲OAr⊳6⊲HNMe2⊳2] OC6F
- Page 595 and 596:
595 [W(OAr) 2⊲DNBu t ⊳2] OC6H3P
- Page 597 and 598:
597 [W(OC6H3Ph- 1-C6H4⊳2⊲PMePh2
- Page 599 and 600:
599 [W⊲OC6HPh3- 1-C6H4-c-C5H8C- O
- Page 601 and 602:
601 [⊲OC⊳3Mn⊲C4H4N⊳Mn⊲CO3
- Page 603 and 604:
603 Table 6.32 Simple aryloxides of
- Page 605 and 606:
605 Table 6.33 Simple aryloxides of
- Page 607 and 608:
607 [NEt4]3fFe6⊲ 4-S⊳4⊲OAr⊳
- Page 609 and 610:
609 [Ru(OAr) 2(CO)(py-CMeO-4)] cis-
- Page 611 and 612:
Table 6.35 Simple aryloxides of osm
- Page 613 and 614:
Metal Aryloxides 613 states, e.g. [
- Page 615 and 616:
Bu t O Bu t (6-I) Bu t Bu t O Metal
- Page 617 and 618:
6.2.10 Group 9 Metal Aryloxides Met
- Page 619 and 620:
Table 6.38 Simple aryloxides of iri
- Page 621 and 622:
Metal Aryloxides 621 Table 6.39 (Co
- Page 623 and 624:
623 [Pd(OAr)⊲C6H3fCH2NMe2g2-2,6)]
- Page 625 and 626:
Metal Aryloxides 625 Table 6.41 Sim
- Page 627 and 628:
627 Table 6.42 Simple aryloxides of
- Page 629 and 630:
629 [(RNC) 2Cu⊲ 2-OAr⊳2Cu(CNR)
- Page 631 and 632:
Metal Aryloxides 631 The two-coordi
- Page 633 and 634:
Table 6.45 (Continued) Metal Arylox
- Page 635 and 636:
Table 6.47 Simple aryloxides of mer
- Page 637 and 638:
637 Table 6.48 Aluminium aryloxides
- Page 639 and 640:
639 [⊲ArO⊳2Al⊲ -OAr⊳2Mg(THF
- Page 641 and 642:
641 [Al(OAr) 2⊲i-Bu⊳] trigonal
- Page 643 and 644:
643 [Al(OAr)Cl(Me)⊲NH2But⊳] OC6
- Page 645 and 646:
645 Table 6.49 Gallium aryloxides B
- Page 647 and 648:
647 Table 6.50 Indium aryloxides Bo
- Page 649 and 650:
Metal Aryloxides 649 Table 6.53 Tin
- Page 651 and 652:
651 Table 6.56 Bismuth aryloxides B
- Page 653 and 654:
REFERENCES Metal Aryloxides 653 1.
- Page 655 and 656:
Metal Aryloxides 655 56. Y. Nakayam
- Page 657 and 658:
Metal Aryloxides 657 123. T.W. Coff
- Page 659 and 660:
Metal Aryloxides 659 202. A. Bell,
- Page 661 and 662:
Metal Aryloxides 661 268. K. Ishiha
- Page 663 and 664:
Metal Aryloxides 663 341. B.S. Kali
- Page 665 and 666:
Metal Aryloxides 665 405. P.N. Rile
- Page 667 and 668:
Metal Aryloxides 667 483. Y. Hayash
- Page 669 and 670:
Metal Aryloxides 669 561. A.P. Shre
- Page 671 and 672:
672 Alkoxo and Aryloxo Derivatives
- Page 673 and 674:
674 Alkoxo and Aryloxo Derivatives
- Page 675 and 676:
676 Alkoxo and Aryloxo Derivatives
- Page 677 and 678:
678 Alkoxo and Aryloxo Derivatives
- Page 679 and 680:
680 Alkoxo and Aryloxo Derivatives
- Page 681 and 682:
682 Alkoxo and Aryloxo Derivatives
- Page 683 and 684:
684 Alkoxo and Aryloxo Derivatives
- Page 685 and 686:
686 Alkoxo and Aryloxo Derivatives
- Page 687 and 688:
688 Index alkoxometallate(IV) ligan
- Page 689 and 690:
690 Index cerium oxo-isopropoxide 3
- Page 691 and 692:
692 Index gas-phase photoelectron s
- Page 693 and 694:
694 Index lead tert-butoxide 386 Le
- Page 695 and 696:
696 Index metal-hydrogen bonds clea
- Page 697 and 698:
698 Index oxo-alkoxides 384, 385, 3
- Page 699 and 700:
700 Index sodium hydroxide 142 sodi
- Page 701 and 702:
702 Index titanium dichloride dieth
- Page 703:
704 Index X X-ray Absorption Near E