ELECTRONIC-STRUCTURE AND PHOTOELECTRON-SPECTROSCOPY OF D(8) RHODIUM INDENYL COMPLEXES

被引：62

作者：

FRANKCOM, TM

GREEN, JC

NAGY, A

KAKKAR, AK

MARDER, TB

机构：

[1] UNIV OXFORD,INORGAN CHEM LAB,S PARKS RD,OXFORD OX1 3QR,ENGLAND

[2] UNIV WATERLOO,DEPT CHEM,WATERLOO N2L 3G1,ONTARIO,CANADA

来源：

ORGANOMETALLICS | 1993年 / 12卷 / 09期

关键词：

D O I：

10.1021/om00033a047

中图分类号：

O61 [无机化学];

学科分类号：

070301 ; 081704 ;

摘要：

The parent indenyl compounds (eta-C9H7)RhL2 (1a-c), trimethylindenyl complexes (eta-1,2,3-Me3C9H4)RhL2 (2a-c), and permethylindenyl complexes (eta-C9Me7)RhL2 (3a-c) (a, L = eta-C2H4; b, L2 = eta4-1,5-C8H12; C, L = CO) have been prepared and examined by photoelectron spectroscopy (PES). Extended Huckel molecular orbital calculations were also carried out on (eta-C9H7)RhL2 (L = eta-C2H4, CO). The electron donating ability of the three indenyl ligands, based on the ionization energies of the nonbonding rhodium centered orbitals, is in the order (eta-C9Me7) > (eta-1,2,3-Me3C9H4) > (eta-C9H7). The (eta-C9H7) (ligand is a stronger donor than (eta-C5H5). Somewhat lower values of nu(CO) in the IR spectra and significantly smaller measured barriers to ethylene rotation in the indenyl complexes vs their cyclopentadienyl analogues can be traced to weaker Rh-L pi-back-bonding, mainly d(xz), which is also the acceptor orbital for indenyl pi4. The major factor determining the relative amounts of back-donation is therefore the splitting of the indenyl pi5 and pi4, the two highest lying filled pi-orbitals of the indenyl anion, vs the degenerate el set of eta-C5H5 which lies between pi4 and pi5 in energy. A rationale for increased S(N)1 substitution rates and catalytic activity of indenyl vs cyclopentadienyl complexes is provided.

引用

页码：3688 / 3697

页数：10

共 45 条

[31] ETA-5 TO ETA-3 CONVERSION IN INDENYLIRIDIUM COMPLEXES
MEROLA, JS
KACMARCIK, RT
VANENGEN, D
[J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1986, 108 (02) : 329 - 331
[32] GENERAL INDENE SYNTHESIS VIA CYCLIZATION OF PHENYL-SUBSTITUTED ALLYLIC CATIONS
MILLER, WG
PITTMAN, CU
[J]. JOURNAL OF ORGANIC CHEMISTRY, 1974, 39 (13) : 1955 - 1956
[33] A BULKY LIGAND AND ITS ORGANOMETALLIC COMPOUND - SYNTHESIS OF HEPTAMETHYLINDENE AND A FERROCENE-TYPE COMPLEX, FE(ETA-5-C9ME7)2
MIYAMOTO, TK
TSUTSUI, M
CHEN, LB
[J]. CHEMISTRY LETTERS, 1981, (06) : 729 - 730
[34] X-RAY CRYSTAL-STRUCTURE AND MOLECULAR-DYNAMICS OF (INDENYL)BIS(ETHYLENE)RHODIUM(I) - 500-MHZ NMR-SPECTRA AND EHMO CALCULATIONS
MLEKUZ, M
BOUGEARD, P
SAYER, BG
MCGLINCHEY, MJ
RODGER, CA
CHURCHILL, MR
ZILLER, JW
KANG, SK
ALBRIGHT, TA
[J]. ORGANOMETALLICS, 1986, 5 (08) : 1656 - 1663
[35] RING-SLIPPAGE CHEMISTRY OF TRANSITION-METAL CYCLOPENTADIENYL AND INDENYL COMPLEXES
OCONNOR, JM
CASEY, CP
[J]. CHEMICAL REVIEWS, 1987, 87 (02) : 307 - 318
[36] SYNTHESIS AND ELECTRONIC-STRUCTURE OF PERMETHYLINDENYL COMPLEXES OF IRON AND COBALT
OHARE, D
GREEN, JC
MARDER, T
COLLINS, S
STRINGER, G
KAKKAR, AK
KALTSOYANNIS, N
KUHN, A
LEWIS, R
MEHNERT, C
SCOTT, P
KURMOO, M
PUGH, S
[J]. ORGANOMETALLICS, 1992, 11 (01) : 48 - 55
[37] INDANYL CATIONS - THEIR STEREOSELECTIVE FORMATION FROM ACYCLIC PHENYL-SUBSTITUTED ALLYLIC CATIONS AND TEMPERATURE-DEPENDENT REARRANGEMENTS
PITTMAN, CU
MILLER, WG
[J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1973, 95 (09) : 2947 - 2956
[38] ZUR KENNTNIS DER SESQUITERPENE .79. IM FUNFRING MEHRFACH SUBSTITUIERTE AZULENE
PLATTNER, PA
FURST, A
JIRASEK, K
[J]. HELVETICA CHIMICA ACTA, 1947, 30 (05) : 1320 - 1329
[39] KINETICS AND MECHANISM OF SUBSTITUTION-REACTIONS OF ETA-5-CYCLOPENTADIENYLDICARBONYLRHODIUM(I) DERIVATIVES - RATE ENHANCEMENT OF ASSOCIATIVE SUBSTITUTION IN CYCLOPENTADIENYLMETAL COMPOUNDS
REREK, ME
BASOLO, F
[J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1984, 106 (20) : 5908 - 5912
[40] THE INDENYL LIGAND EFFECT ON THE RATE OF SUBSTITUTION-REACTIONS OF RH(ETA-C9H7)(CO)2 AND MN(ETA-C9H7)(CO)3
REREK, ME
JI, LN
BASOLO, F
[J]. JOURNAL OF THE CHEMICAL SOCIETY-CHEMICAL COMMUNICATIONS, 1983, (21) : 1208 - 1209

← 1 2 3 4 5 →