International
Tables for
Crystallography
Volume C
Mathematical, physical and chemical tables
Edited by E. Prince

International Tables for Crystallography (2006). Vol. C, ch. 9.6, pp. 884-886
https://doi.org/10.1107/97809553602060000622

Appendix A9.6.1. Notes and references to Tables 9.6.3.2[link] and 9.6.3.3[link]

A. G. Orpen,a L. Brammer,b F. H. Allen,c D. G. Watsonc and R. Taylorc

aSchool of Chemistry, University of Bristol, Bristol BS8 1TS, England,bDepartment of Chemistry, University of Missouri–St Louis, 8001 Natural Bridge Road, St Louis, MO 63121-4499, USA, and cCambridge Crystallographic Data Centre, 12 Union Road, Cambridge CB2 1EZ, England

(1) T. J. Marks & R. D. Ernst (1982). Comprehensive organometallic chemistry, Vol. 3, pp. 173–270. London: Pergamon Press.

(2) D. Cozak & M. Melník (1986). Coord. Chem. Rev. 74, 53–99.

(3) M. Melník & D. Cozak (1986). Rev. Inorg. Chem. 8, 221–286.

(4) C. E. Holloway & M. Melník (1985). Rev. Inorg. Chem. 7, 75–160.

(5) C. E. Holloway & M. Melník (1986). Rev. Inorg. Chem. 8, 287–335.

(6) C. E. Holloway & M. Melník (1986). J. Organomet. Chem. 304, 41–82.

(7) L. F. Larkworthy, K. B. Nolan & P. O'Brien (1987). Comprehensive coordination chemistry, Vol. 3, pp. 699–969. London: Pergamon Press.

(8) D. A. Buckingham & C. R. Clark (1987). Comprehensive coordination chemistry, Vol. 4, pp. 635–900. London: Pergamon Press.

(9) L. Sacconi, F. Mani & A. Bencini (1987). Comprehensive coordination chemistry, Vol. 5, pp. 1–347. London: Pergamon Press.

(10) K. Nag & A. Chakravorty (1980). Coord. Chem. Rev. 33, 87–147.

(11) B. J. Hathaway (1984). Struct. Bonding (Berlin), 57, 55–118.

(12) B. J. Hathaway (1987). Comprehensive coordination chemistry, Vol. 5, pp. 553–774. London: Pergamon Press.

(13) C. E. Holloway, I. M. Walker & M. Melník (1986). Rev. Inorg. Chem. 8, 170–220.

(14) C. E. Holloway & M. Melník (1985). Rev. Inorg. Chem. 7, 161–250.

(15) S. W. Kirtley (1982). Comprehensive organometallic chemistry, Vol. 3, pp. 1079–1148. London: Pergamon Press.

(16) M. Melník & P. Sharrock (1985). Coord. Chem. Rev. 65, 49–85.

(17) G. Bandoli, U. Mazzi, E. Roncari & E. Deutsch (1982). Coord. Chem. Rev. 44, 191–227.

(18) M. Melník & J. E. Van Lier (1986). Coord. Chem. Rev. 77, 275–324.

(19) D. G. Tuck (1979). Rev. Inorg. Chem. 1, 209–243.

(20) F. A. Hart (1987). Comprehensive coordination chemistry, Vol. 3, pp. 1059–1127. London: Pergamon Press.

(21) K. N. Raymonds & C. W. Eigenbrot Jr (1980). Acc. Chem. Res. 13, 276–283.

(22) J.-C. G. Bünzli & D. Wessner (1984). Coord. Chem. Rev. 60, 191–253.

(23) C. E. Holloway & M. Melník (1985). Rev. Inorg. Chem. 7, 1–74.

(24) S. W. Kirtley (1982). Comprehensive organometallic chemistry, Vol. 3, pp. 1255–1319. London: Pergamon Press.

(25) M. Melník & R. V. Parrish (1986). Coord. Chem. Rev. 70, 157–257.

(26) K. Brodersen & H. U. Hummel (1987). Comprehensive coordination chemistry, Vol. 5, pp. 1047–1097. London: Pergamon Press.

(27) R. G. Teller & R. Bau (1981). Struct. Bonding (Berlin), 44, 1–82.

(28) K. B. Gilbert, S. K. Boocock & S. G. Shore (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 879–945. London: Pergamon Press.

(29) R. N. Grimes (1982). Comprehensive organometallic chemistry, Vol. 1, pp. 459–542. London: Pergamon Press.

(30) Distribution is bimodal.

(31) G. E. Herberich (1982). Comprehensive organometallic chemistry, Vol. 1, pp. 381–410. London: Pergamon Press.

(32) W. Siebert (1980). Adv. Organomet. Chem.18, 301–340.

(33) G. E. Herberich & H. Ohst (1985). Adv. Organomet. Chem. 25, 199–236.

(34) J. S. Bradley (1982). Adv. Organomet. Chem. 22, 1–58.

(35) M. Tachikawa & E. L. Muetterties (1981). Prog. Inorg. Chem. 28, 203–238.

(36) M. A. Gallop & W. R. Roper (1985). Adv. Organomet. Chem. 25, 121–198.

(37) H. P. Kim & R. J. Angelici (1987). Adv. Organomet. Chem. 27, 51–111.

(38) S. W. Kirtley (1982). Comprehensive organometallic chemistry, Vol. 3, pp. 783–951. London: Pergamon Press.

(39) J. Holton, M. F. Lappert, R. Pearce & P. I. W. Yarrow (1983). Chem. Rev. 83, 135–201.

(40) M. I. Bruce & A. G. Swincer (1982). Adv. Organomet. Chem. 22, 59–128.

(41) F. R. Hartley (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 471–762. London: Pergamon Press.

(42) E. Sappa, A. Tiripicchio & P. Braunstein (1985). Coord. Chem. Rev. 65, 219–284.

(43) Distances for M—C—N ≥ 173° only.

(44) Distances for ligands trans to oxo excluded.

(45) Y. Yamamoto (1980). Coord. Chem. Rev. 32, 193–233.

(46) E. Singleton & H. E. Oosthuizen (1982). Adv. Organomet. Chem. 22, 209–310.

(47) P. M. Maitlis, P. Espinet & M. J. H. Russell (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 279–349. London: Pergamon Press.

(48) Distances for M—C—O ≥ 173° only.

(49) D. J. Sikova, D. W. Macomber & M. D. Rausch (1985). Adv. Organomet. Chem. 25, 317–379.

(50) M. D. Johnson (1982). Comprehensive organometallic chemistry, Vol. 4, pp. 331–376. London: Pergamon Press.

(51) P. W. Jolly (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 15–36. London: Pergamon Press.

(52) R. Colton & M. J. McCormick (1980). Coord. Chem. Rev. 31, 1–52.

(53) W. A. Herrmann (1982). Adv. Organomet. Chem. 20, 159–263.

(54) J. A. Labinger (1982). Comprehensive organometallic chemistry, Vol. 3, pp. 705–782. London: Pergamon Press.

(55) U. Schubert (1984). Coord. Chem. Rev. 55, 261–286.

(56) P. W. Jolly (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 37–100. London: Pergamon Press.

(57) G. K. Anderson (1982). Adv. Organomet. Chem. 20, 39–114.

(58) D. M. P. Mingos (1982). Comprehensive organometallic chemistry, Vol. 3, pp. 1–88. London: Pergamon Press.

(59) S. J. Bryan, P. G. Huggett, K. Wade, J. A. Daniels & J. R. Jennings (1982). Coord. Chem. Rev. 44, 149–189.

(60) A. J. Deeming (1982). Comprehensive organometallic chemistry, Vol. 4, pp. 377–512. London: Pergamon Press.

(61) P. W. Jolly (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 101–143. London: Pergamon Press.

(62) I. Omae (1983). Coord. Chem. Rev. 51, 1–39.

(63) Distribution is positively skewed.

(64) E. Sappa, A. Tiripicchio & P. Braunstein (1983). Chem. Rev. 83, 203–239.

(65) J. L. Templeton, P. B. Winston & B. C. Ward (1981). J. Am. Chem. Soc. 103, 7713–7721.

(66) P. W. Jolly (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 145–182. London: Pergamon Press.

(67) P. W. Jolly (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 183–187. London: Pergamon Press.

(68) H. Yasuda, K. Tatsumi & A. Nakamura (1985). Acc. Chem. Res. 18, 120–126.

(69) G. Erker, C. Krüger & G. Müller (1984). Adv. Organomet. Chem. 24, 1–39.

(70) P. W. Jolly (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 189–228. London: Pergamon Press.

(71) D. J. Cardin, M. F. Lappert, C. L. Raston & P. I. Riley (1982). Comprehensive organometallic chemistry, Vol. 3, pp. 559–633. London: Pergamon Press.

(72) R. D. Ernst (1984). Struct. Bonding (Berlin), 57, 1–53; R. D. Ernst (1985). Acc. Chem. Res. 18, 56–62.

(73) P. Powell (1986). Adv. Organomet. Chem. 26, 125–164.

(74) E. L. Muetterties, J. R. Bleeke, E. J. Wucherer & T. A. Albright (1982). Chem. Rev. 82, 499–525.

(75) P. W. Jolly (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 229–231. London: Pergamon Press.

(76) D. J. Gulliver & W. Levason (1982). Coord. Chem. Rev. 46, 1–127.

(77) E. I. Steifel (1987). Comprehensive coordination chemistry, Vol. 3, pp. 1375–1420. London: Pergamon Press.

(78) W. L. Gladfelter (1984). Adv. Organomet. Chem. 24, 41–86.

(79) W. A. Nugent & B. L. Haymore (1980). Coord. Chem. Rev. 31, 123–175.

(80) B. F. G. Johnson, B. L. Haymore & J. R. Dilworth (1987). Comprehensive coordination chemistry, Vol. 2, pp. 99–159. London: Pergamon Press.

(81) Distribution may be affected by unresolved trans-influence effects.

(82) Distances for ligands in the axial site in M2(μ-O2CR)4 adducts only.

(83) F. H. Jardine (1987). Comprehensive coordination chemistry, Vol. 4, pp. 901–1096. London: Pergamon Press.

(84) K. Vrieze & G. Van Koten (1987). Comprehensive coordination chemistry, Vol. 2, pp. 189–244. London: Pergamon Press.

(85) Distances for ligand in the axial site in M2(μ-O2CR)4 adducts excluded.

(86) Distribution is positively skewed.

(87) Unresolved metal oxidation state effects present in this distribution.

(88) P. Pelikán & R. Boĉa (1984). Coord. Chem. Rev. 55, 55–112.

(89) G. J. Leigh & R. L. Richards (1987). Comprehensive coordination chemistry, Vol. 3, pp. 1265–1299. London: Pergamon Press.

(90) K. A. Connor & R. A. Walton (1987) Comprehensive coordination chemistry, Vol. 4, pp. 125–213. London: Pergamon Press.

(91) Distribution is negatively skewed.

(92) Distribution may be distorted by unresolved bond-angle dependence within ligand.

(93) H. W. Roesky & K. K. Pandey (1983). Adv. Inorg. Chem. Radiochem. 26, 337–356.

(94) M. H. Chisholm & I. P. Rothwell (1987). Comprehensive coordination chemistry, Vol. 2, pp. 170–176. London: Pergamon Press.

(95) M. Calligaris & L. Randaccio (1987). Comprehensive coordination chemistry, Vol. 2, pp. 715–738. London: Pergamon Press.

(96) Distribution may be distorted by unresolved metal spin state effects.

(97) B. Chiswell, E. D. Mackenzie & L. F. Lindoy (1987). Comprehensive coordination chemistry, Vol. 4, pp. 1–122. London: Pergamon Press.

(98) T. Mashiko & D. Dolphin (1987). Comprehensive coordination chemistry, Vol. 2, pp. 813–898. London: Pergamon Press.

(99) S. M. Nelson (1987). Comprehensive coordination chemistry, Vol. 4, pp. 217–276. London: Pergamon Press.

(100) Distribution includes distances for ligands in axial site in M2(O2CR)4 adducts.

(101) D. S. Moore & S. D. Robinson (1986). Adv. Inorg. Chem. Radiochem. 30, 1–68.

(102) R. W. Kemmit & D. R. Russell (1982). Comprehensive organometallic chemistry, Vol. 5, pp. 1–276. London: Pergamon Press.

(103) M. A. Hitchiman & G. L. Rowbottom (1982). Coord. Chem. Rev. 42, 55–132.

(104) B. J. Hathaway (1987). Comprehensive coordination chemistry, Vol. 2, pp. 413–434. London: Pergamon Press.

(105) D. A. House (1987). Comprehensive coordination chemistry, Vol. 2, pp. 23–72. London: Pergamon Press.

(106) F. Bottomley & L. Sutin (1988). Adv. Organomet. Chem. 28, 339–396.

(107) L. V. Boas & J. C. Pessoa (1987). Comprehensive coordination chemistry, Vol. 3, pp. 453–583. London: Pergamon Press.

(108) C. D. Garner & J. M. Charnock (1987). Comprehensive coordination chemistry, Vol. 3, pp. 1329–1374. London: Pergamon Press.

(109) Distribution may be affected by unresolved ligand substituent effects.

(110) W. P. Griffith (1987). Comprehensive coordination chemistry, Vol. 4, pp. 519–633. London: Pergamon Press.

(111) M. Melník (1982). Coord. Chem. Rev. 42, 259–293.

(112) T. Theophanides & P. D. Harvey (1987). Coord. Chem. Rev. 76, 237–264.

(113) G. B. Deacon & R. J. Phillips (1980). Coord. Chem. Rev. 33, 227–250.

(114) M. Melník (1981). Coord. Chem. Rev. 36, 1–44.

(115) E. B. Boyar & S. D. Robinson (1983). Coord. Chem. Rev. 50, 109–208.

(116) Distribution may be affected by unresolved metal coordination number effects.

(117) C. G. Pierpont & R. M. Buchanan (1981). Coord. Chem. Rev. 38, 45–87.

(118) Distances for mono-anionic ligand.

(119) Distances for neutral ligand.

(120) Distances for di-anionic ligand.

(121) D. A. Palmer & R. Van Eldik (1983). Chem. Rev. 83, 651–731.

(122) U. Casellato, P. A. Vigato & M. Vidali (1981). Coord. Chem. Rev. 36, 183–265.

(123) R. Boca (1983). Coord. Chem. Rev. 50, 1–72.

(124) M. H. Gubelmann & A. F. Williams (1983). Struct. Bonding (Berlin), 55, 1–65.

(125) H. A. O. Hill & D. G. Tew (1987). Comprehensive coordination chemistry, Vol. 2, pp. 315–333. London: Pergamon Press.

(126) C. A. McAuliffe & D. S. Barratt (1987). Comprehensive coordination chemistry, Vol. 3, pp. 323–361. London: Pergamon Press.

(127) J. A. Davies (1981). Adv. Inorg. Chem. Radiochem. 24, 115–187.

(128) N. M. N. Gowda, S. B. Naikar & G. K. N. Reddy (1984). Adv. Inorg. Chem. Radiochem. 28, 255–299.

(129) Distances for ligands trans to oxo only.

(130) B. Chiswell, E. D. Mackenzie & L. F. Lindoy (1987). Comprehensive coordination chemistry, Vol. 4, pp. 1–112. London: Pergamon Press.

(131) Distances for cluster complexes only.

(132) J. B. Farmer (1982). Adv. Inorg. Chem. Radiochem. 25, 187–237.

(133) R. C. Fay (1987). Comprehensive coordination chemistry, Vol. 3, pp. 363–451. London: Pergamon Press.

(134) A. J. Edwards (1987). Comprehensive coordination chemistry, Vol. 2, pp. 675–688. London: Pergamon Press.

(135) P. G. Harrison & T. Kikabbai (1987). Comprehensive coordination chemistry,Vol. 2, pp. 15–21. London: Pergamon Press; K. M. McKay & B. K. Nicholson (1982). Comprehensive organometallic chemistry, Vol. 6, pp. 1043–1114. London: Pergamon Press; B. J. Aylett (1982). Adv. Inorg. Chem. Radiochem. 25, 1–133.

(136) G. Huttner & K. Evertz (1986). Acc. Chem. Res. 19, 406–413.

(137) C. A. McAuliffe (1987). Comprehensive coordination chemistry, Vol. 2, pp. 986–1066. London: Pergamon Press.

(138) A. H. Cowley & N. C. Norman (1986). Prog. Inorg. Chem. 34, 1–63.

(139) Distances for structures in which the three P—C bond lengths vary by < 0.1 Å only.

(140) Distances excluded for ligands in the axial site of an octahedral complex containing a planar N4 or N2O2 macrocyclic ligand (see 141).

(141) P. D. Smith, B. R. James & D. H. Dolphin (1981). Coord. Chem. Rev. 39, 31–75.

(142) D. M. Roundhill (1987). Comprehensive coordination chemistry, Vol. 5, pp. 351–531. London: Pergamon Press.

(143) As for (139) but variation < 0.07 Å only.

(144) R. J. Puddephatt (1987). Comprehensive coordination chemistry, Vol. 5, pp. 861–923. London: Pergamon Press.

(145) R. J. Lancashire (1987). Comprehensive coordination chemistry, Vol. 5, pp. 775–859. London: Pergamon Press.

(146) As for (139), but variation < 0.15 Å only.

(147) Distances for ligands trans to ≡CR excluded.

(148) J. F. Nixon (1985). Adv. Inorg. Chem. Radiochem. 29, 41–141.

(149) As for (139), but variation < 0.1 Å in both P—O and O—C lengths.

(150) A. Müller & E. Diemann (1987). Comprehensive coordination chemistry, Vol. 2, pp. 515–550. London: Pergamon Press.

(151) Distances excluded for cases where the ML lengths within a bridge differ by > 0.1 Å.

(152) W. Levason & M. D. Spicer (1987). Coord. Chem. Rev. 76, 45–120.

(153) Distances for ligands trans to =NR excluded.

(154) G. Winter (1980). Rev. Inorg. Chem. 2, 253–342.

(155) R. Eisenberg (1970). Prog. Inorg. Chem. 12, 295–369.

(156) A. Müller, W. Jaegermann & J. H. Enemark (1982). Coord. Chem. Rev. 46, 245–280.

(157) A. Müller & E. Diemann (1987). Adv. Inorg. Chem. Radiochem. 31, 89–122.

(158) S. G. Murray & F. R. Hartley (1981). Chem. Rev. 81, 365–414.

(159) Z. Dori (1981). Prog. Inorg. Chem. 28, 239–307.

(160) R. R. Ryan, G. J. Kubas, D. C. Moody & P. G. Eller (1981). Struct. Bonding (Berlin), 46, 47–100.

(161) Distances for ligands trans to hydride excluded.

(162) Distances for ligands trans to ≡N excluded.

(163) F. J. Berry (1987). Comprehensive coordination chemistry, Vol. 2, pp. 661–674. London: Pergamon Press.

(164) H. J. Gysling (1982). Coord. Chem. Rev. 42, 133–244.








































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