Cyanide-bridged complexes with Sn(II)Mn(I), Sn(II)Mn(II), Sn(IV)Mn(I) and Sn(IV)Mn(II) oxidation states

被引：10

作者：

Anderson, KM ^{[1
]}

Connelly, NG ^{[1
]}

Goodwin, NJ ^{[1
]}

Lewis, GR ^{[1
]}

Moreno, MT ^{[1
]}

Orpen, AG ^{[1
]}

Wood, AJ ^{[1
]}

机构：

[1] Univ Bristol, Sch Chem, Bristol BS8 1TS, Avon, England

来源：

JOURNAL OF THE CHEMICAL SOCIETY-DALTON TRANSACTIONS | 2001年 / 09期

关键词：

D O I：

10.1039/b100721l

中图分类号：

O61 [无机化学];

学科分类号：

070301 ; 081704 ;

摘要：

The redox-active cyanomanganese carbonyl ligands trans- and cis-[Mn(CN)(CO)(2)(PR3)(dppm)] (R=OEt or OPh, dppm=Ph2PCH2PPh2) and trans-[Mn(CN)(CO)(dppm)(2)] react with SnCl2 to give [Cl2SnII(mu -NC)(MnLx)-L-I] [L-x= trans- and cis-(CO)(2)(PR3)(dppm), R=OEt or OPh, 1-4, and trans-(CO)(dppm)(2) 5]; complex 5 is oxidised by [Fe(eta -C5H5)(2)][PF6] to give [Cl2SnII(mu -NC)Mn-II(CO)(dppm)(2)][PF6] 5(+)[PF6](-). X-Ray structural studies on the redox related pair 5 and 5(+) are consistent with oxidation localised mainly at Mn although the Sn-II-NC distance increases from 2.198(3) Angstrom in 5 to 2.303(9) Angstrom in 5(+). The dicarbonyl cyanomanganese ligands react with SnCl4 to give trinuclear trans-[Cl4Sn{(mu -NC)MnLx}(2)] [L-x=trans- and cis-(CO)(2)(PR3)(dppm), R=OEt or OPh, 6-9], X-ray studies on 7 showing octahedral geometry at Sn(IV). The reaction of cis-[Mn(CN)(CO)(2){P(OEt)(3)}(dppm)] with one equivalent each of SnCl4 and PPh3 and of trans-[Mn(CN)(CO)(dppm)(2)] with one equivalent each of SnCl4 and [N(PPh3)(2)]Cl gives heterobinuclear [Cl-4(Ph3P)Sn-IV(mu -NC)Mn-I(CO)(2){P(OEt)(3)}(dppm)-cis] 10 and [N(PPh3)(2)][Cl5SnIV(mu -NC)Mn-I(CO)(dppm)(2)-trans], [N(PPh3)(2)](+)(11(-)), respectively; the latter is oxidised with [Fe(eta -C5H5)(2)][PF6] to give [Cl5SnIV(mu -NC)Mn-II(CO)(dppm)(2)-trans] 11, completing a series of cyanide-bridged complexes with core oxidation states Sn(II)Mn(I), Sn(II)Mn(II), Sn(IV)Mn(I) and Sn(IV)Mn(II).

引用

页码：1421 / 1427

页数：7

共 50 条

[41] SYNTHESIS AND STUDY OF SULFAGUANIDINE COMPLEXES OF FE(II), CU(II), CD(II), V(IV), PB(II), SE(IV), SN(IV) AND MO(VI)
SRIVASTAVA, SP
GUPTA, VK
GUPTA, K
MAHESHWARI, A
GUPTA, R
SYNTHESIS AND REACTIVITY IN INORGANIC AND METAL-ORGANIC CHEMISTRY, 1987, 17 (8-9): : 801 - 809
[42] Heterometallic complexes of Sn(II)
Mosquera, MEG
Palmer, JS
Hopkins, AD
Wright, DS
PHOSPHORUS SULFUR AND SILICON AND THE RELATED ELEMENTS, 1999, 151 : 107 - 116
[43] HEATS OF SOLUTION OF MN(II), CO(II), CU(II), AL(III), FE(III), TI(IV), SN(IV), SB(V), P(III) AND I(III) CHLORIDES, PHOSPHORYL(V) TRICHLORIDE AND THIONYL CHLORIDE IN TRIETHYL PHOSPHATE
PAUL, RC
SHARMA, OD
BHATIA, JC
INDIAN JOURNAL OF CHEMISTRY SECTION A-INORGANIC BIO-INORGANIC PHYSICAL THEORETICAL & ANALYTICAL CHEMISTRY, 1977, 15 (11): : 1011 - 1012
[44] REDOX INTERACTION BETWEEN BINUCLEAR MN2(III/IV) COMPLEXES AND BINUCLEAR MN2(II/II) COMPLEXES
NISHIDA, Y
NASU, M
ZEITSCHRIFT FUR NATURFORSCHUNG SECTION B-A JOURNAL OF CHEMICAL SCIENCES, 1991, 46 (02): : 231 - 234
[45] CRYSTAL-STRUCTURE OF TERNARY CU(II) FLUORIDES CUM(IV)F6 (M(IV) = SN,PB,TI,MN,PD)
SCHROTTER, F
MULLER, BG
ZEITSCHRIFT FUR KRISTALLOGRAPHIE, 1991, 196 (1-4): : 261 - 268
[46] Bond valence sums in coordination chemistry. Sn(II), Sn(III), and Sn(IV) complexes containing Sn-S and/or Sn-N bonds
Jensen, WP
Palenik, GJ
Tiekink, ERT
POLYHEDRON, 2001, 20 (17) : 2137 - 2143
[47] DETERMINATION OF PB (II) AND SN (IV) BY CHRONOPOTENTIOMETRIC TECHNIQUE
LUNEV, MI
KAMENEV, AI
AGASYAN, PK
VESTNIK MOSKOVSKOGO UNIVERSITETA SERIYA 2 KHIMIYA, 1974, (06): : 686 - 689
[48] ELECTRON EXCHANGE REACTION BETWEEN SN(II) AND SN(IV) BY MEANS OF MOSSBAUER EFFECT
VERTES, A
MAGYAR KEMIAI FOLYOIRAT, 1971, 77 (6-7): : 344 - &
[49] Partition coefficients of Sn(II) and Sn(IV) in igneous rocks as related to their ore content
Kovalenko, V.I.
Doklady. Earth science sections, 1988, 300 (03): : 137 - 141
[50] ISOMER-SHIFTS AND CHEMICAL BONDING IN CRYSTALLINE SN(II) AND SN(IV) COMPOUNDS
TERRA, J
GUENZBURGER, D
JOURNAL OF PHYSICS-CONDENSED MATTER, 1991, 3 (35) : 6763 - 6774

← 1 2 3 4 5 →