Dr Maxim Sokolov
Professor William Clegg
| Synthesis and structure of nickel-containing cuboidal clusters derived from [W3Se4(H2O)9]4+. Site-differentiated substitution at the nickel site in the series [W 3NiQ4(H2O)10]4+ (Q = S, Se) | 2006 |
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Dr Maxim Sokolov
Professor William Clegg
| Preparation and characterization of triangular clusters [M3Q4(acac)3(py)3]+ (M=Mo, W; Q=S, Se) | 2002 |
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Dr Maxim Sokolov
Emeritus Prof Alfred Sykes
| Behavioral patterns of heterometallic cuboidal derivatives of [M3Q4(H2O)9]4+ (M = Mo, W; Q = S, Se) | 2001 |
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Dr Maxim Sokolov
Professor William Clegg
| Coordination chemistry of [Nb2(S2)2]4+ clusters: Preparation and crystal structures of K4[Nb2(S2)2(C2O 4)4] · 6H2O and(NH4)6[Nb2(S2)2(C 2O4)4](C2O4) | 2001 |
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Dr Maxim Sokolov
Dr Mark Elsegood
Professor William Clegg
Emeritus Prof Alfred Sykes
| Preparation and properties of heterometallic cube derivatives Mo3M′S4 from [Mo3S4(H2O)9]4+ with M′ = 3 Pt, Rh and Re, and [W3S4(H2O)9]4+ analogues | 2001 |
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Dr Maxim Sokolov
Mi-Sook Seo
Professor William Clegg
Emeritus Prof Alfred Sykes
| Preparation, structure, and properties of the corner-shared double cubes [Mo6HgQ8(H2O)18]8+ (Q = S, Se) and tungsten analogues | 2001 |
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Mi-Sook Seo
Dr Maxim Sokolov
Dr Mark Elsegood
Professor William Clegg
Emeritus Prof Alfred Sykes
et al. | Preparation, structure, and reactivity of Ge-containing heterometallic cube derivatives of [M3E4(H2O)9]4+ (M = Mo, W; E = S, Se) | 2001 |
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Dr Maxim Sokolov
Professor William Clegg
| Synthesis and the crystal structure of the supramolecular complex [Cl3InW3S4(H2O)9]2+ with cucurbituril | 2001 |
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Dr Maxim Sokolov
Professor William Clegg
Emeritus Prof Alfred Sykes
| Metal incorporation into and dimerization of M3E4 clusters (M = Mo, W; E = S, Se) in supramolecular assemblies with cucurbituril: A molecular model of intercalation | 2000 |
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Dr Maxim Sokolov
Dr Mark Elsegood
Professor William Clegg
Emeritus Prof Alfred Sykes
| Synthesis, structure, and properties of molybdenum and tungsten cyano complexes with cuboidal M4(μ3-E)4 (M = Mo, W; E = S, Se, Te) cores | 1999 |
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