Co-ordination of heavier alkali metals by polyimido antimony(III) ligands; syntheses and structures of [{Sb-2(NC6H11)(4)}(2)M-4] (M = Li or Na), Li[{(Me2N)Sb(mu-NC6H11)(2)}(2)Sb] and M[{(C6H11NH)Sb(mu-NC6H11)(2)}(2)Sb]center dot 2thf (M = K or Rb)
Dalton Transactions
(1998)
1389
(doi: 10.1039/a708496j)
Heterobimetallic (imido)antimony/lithium cages containing [Sb(NR)3]3-trianions
Inorg Chem
(1998)
37
2177
(doi: 10.1021/ic971090k)
Aggregation of lithium and mixed thallium(I)-lithium amides through eta(3)- and eta(6)-pi-arene interactions in the solid
Chemical Communications
(1998)
549
(doi: 10.1039/a708139a)
Sterically induced cis isomerism in an Sb(III) imido dimer; synthesis, structure and solution dynamics of [(Me2N)Sb(mu-NDipp)](2) (Dipp = 2,6-Pr2iC6H3)
Polyhedron
(1998)
17
745
Synthesis and structure of [{(But;O)2Sb3(μ-NCy)3(μ3-NCy)}K.η6-C6H5Me];: a sandwich complex containing a unique SbIII nido cage anion (Cy=cyclohexyl, C6H11)
Chemical Communications
(1998)
261
(doi: 10.1039/a708083b)
Reactions of group 14 metallocenes with lithiated primary amines; alternative pathways in the formation of the primary tris(amido)stannate [(MANH)Sn(NHMA)(2)Li.2THF]1 and the cubanes [E(NCy)](4) (E=Sn2, Pb3; MA=(2-MeO)C6H4, Cy=C6H11)
Journal of Organometallic Chemistry
(1998)
550
71
p-Block metallocenes: the other side of the coin
Chemical Society Reviews
(1998)
27
225
(doi: 10.1039/a827225z)
Synthesis and structure of [{Sb(NCy)3}{Cd[N(SiMe3)2]} 3]·[Li{N(SiMe3)2}·thf] 2, containing a bimetallic [SbCd3] cage
Journal of the Chemical Society Dalton Transactions
(1998)
517
(doi: 10.1039/a707816a)
Syntheses and Structures of [Sn{NR}2{Sn(μ-NMe2)}2]: Model Intermediates in the Formation of Imido Group 14 Cages and Rings [R = 2,6-Pr i 2C6H3 (Dipp), 2,4,6-Me3C6H2 (Mes)]
Inorganic Chemistry
(1997)
36
5202
(doi: 10.1021/ic970336i)
Stoichiometric assembly of [Sb(PCy)(3)](2)Li-6 center dot 6HNMe(2)center dot 2C(6)H(5)Me; a highly fluxional antimony(III) phosphinidine complex containing Me2NH ligation of lithium
Chemical Communications
(1997)
{1879-1880}
(doi: 10.1039/a703979d)
“Paddle-Wheel” Tris(cyclopentadienyl)tin(II) and -lead(II) Complexes: Syntheses, Structures, and Model MO Calculations
Organometallics
(1997)
16
3340
(doi: 10.1021/om970161k)
Nucleophilic substitution vs. acid–base reactions of [Mn{N(SiMe3)2}2]·2thf; syntheses and structures of 2[Li(thf )4]+[Mn(C12H 8N)4]2−·C6 H5Me and [Mn(C12H8N)2]·3thf (thf = tetrahydrofuran, C12H8N = carbazol-9-yl)
Journal of the Chemical Society, Dalton Transactions
(1997)
2029
(doi: 10.1039/a700765e)
Assembly of Mixed-Metal Cages Using Polyimido Antimony(III) Anions. Syntheses and Structures of [Sb3(NCy)4(HNCy)2]K·2(toluene), [Sb2(NCy)4]2M4 (M = Cu, Ag), and [Sb(NCy)3]2Pb3 (Cy = Cyclohexyl, C6H11)
Inorganic Chemistry
(1997)
36
1740
(doi: 10.1021/ic961108b)
Synthesis and structure of [Pb(2-Py)(3)Li center dot THF], containing a low-valent group 14 tris(pyridyl) ligand (2-Py equals 2-pyridyl)
Organometallics
(1997)
16
1109
(doi: 10.1021/om9609123)
β-trans-[N 4 {P(Ph)(C 6 H 11 N)} 4 ] 4 - ; a tetraanionic ligand system exhibiting two separated tetradentate coordination sites of concave-shaped cavities
Chemical Communications
(1997)
283
(doi: 10.1039/a607055h)
Synthesis and structure of [Sn(mit)6Cu4]; a [SnCu4] cage supported by Sn-Cu cluster bonding [mit = (CH)2N(Me)C(-..S)-..N]
Chemical Communications
(1997)
1975
Synthesis and structure of [Sb{(Pr(i)N)(2)CNHPr(i)}{(Pr(i)N)(2)CNPr(i)}]; A distorted trigonal-bipyramidal antimony(III) complex with a helical hydrogen-bond network
Chemical Communications
(1997)
1161
(doi: 10.1039/a701675a)
Solvent directed aggregation of a metallocene; structures of {[Pb(η-C5H5)2]3 ·C6H5Me}∞ and [Pb(η-C5H5)2]6
Chemical Communications
(1997)
109
(doi: 10.1039/a607561d)
Metal selection of ligand functionality in [(mes)2P(- ..O)2Li·2thf]2 and [{(Me3Si)2N}Cd{(mes)2P-..O} 2Li·2thf] (mes = C6H2Me3-2,4,6)
Chemical Communications
(1997)
583
(doi: 10.1039/a608202e)
One-pot synthesis of a novel tridentate tin(IV) ligand; Syntheses and structures of [Bu(n)Sn(NC5H4-C,N)(3)MBr] (M=Li, Cu)
Chemical Communications
(1996)
2619
(doi: 10.1039/cc9960002619)
