Chemistry Reference
In-Depth Information
47. Bellon P, Manassero M, Sansoni M (1972) Crystal and molecular structure of tri-iodoheptakis
(tri-
p
-fluorophenylphosphine)undecagold. J Chem Soc Dalton Trans 14:1481-1487
48. Bellon P, Manassero M, Sansoni M (1973) An octahedral gold cluster: crystal and molecular
structure of hexakis[tris-(
p
-tolyl)phosphine]-octahedro-hexagold bis(tetraphenylborate).
J Chem Soc Dalton Trans 22:2423-2427
49. Manassero M, Naldini L, Sansoni M (1979) A new class of gold cluster compounds.
Synthesis and X-ray structure of the octakis(triphenylphosphinegold) dializarinsulphonate,
[Au
8
(PPh
3
)
8
](aliz)
2
. J Chem Soc Chem Commun (9):385-386
50. Mingos DMP (1983) Polyhedral skeletal electron pair approach. A generalised principle for
condensed polyhedra. J Chem Soc Chem Commun (12):706
51. Mingos DMP, Slee T, Zhenyang L (1990) Bonding models for ligated and bare clusters.
Chem Rev 90(2):383-402
52. Wales DJ (2005) Electronic structure of clusters. Encyclopedia Inorg Chem. doi:
10.1002/
53. Schwerdtfeger P (2003) Gold goes nano-from small clusters to low-dimensional assemblies.
Angew Chem Int Ed 42(17):1892-1895
54. Schmid G (2008) Ionically cross-linked gold clusters and gold nanoparticles. Angew Chem
Int Ed 47(19):3496-3498
55. Schmid G (2008) The relevance of shape and size of Au
55
clusters. Chem Soc Rev 37(9):
1909-1930
56. Yam V, Cheng E (2008) Highlights on the recent advances in gold chemistry-a photophysical
perspective. Chem Soc Rev 37(9):1806-1813
57. Koshevoy I, Chang Y-C, Karttunen A, Selivanov S, J¨nis J, Haukka M, Pakkanen T, Tunik S,
Chou P-T (2012) Intensely luminescent homoleptic alkynyl decanuclear gold(I) clusters and
their cationic octanuclear phosphine derivatives. Inorg Chem 51(13):7392-7403
58. Mingos DMP, Watson MJ (1992) Heteronuclear gold cluster compounds. Adv Inorg Chem
39:327-399
59. Teo BK, Zhang H (1995) Polyicosahedricity: icosahedron to icosahedron of icosahedra
growth pathway for bimetallic (Au-Ag) and trimetallic (Au-Ag-M; M
¼
Pt, Pd, Ni)
supraclusters;
synthetic
strategies,
site preference,
and stereochemical principles.
Coord Chem Rev 143:611-636
60. Schmidbaur H, Schier A (2012) Aurophilic interactions as a subject of current research: an
up-date. Chem Soc Rev 41(1):370-412
61. Schulz-Dobrick M, Jansen M (2006) Supramolecular intercluster compounds consisting of
gold clusters and Keggin anions. Eur J Inorg Chem 2006(22):4498-4502
62. Wen F, Englert U, Gutrath B, Simon U (2008) Crystal structure, electrochemical and optical
properties of [Au
9
(PPh
3
)
8
](NO
3
)
3
. Eur J Inorg Chem 2008(1):106-111
63. Cariati F, Naldini L, Simonetta G, Malatesta L (1967) Ethyldiphenylphosphine-gold deri-
vatives with intermetallic bonds. Inorg Chim Acta 1:24-26
64. Bartlett PA, Bauer B, Singer SJ (1978) Synthesis of water-soluble undecagold cluster
compounds of potential importance in electron microscopic and other studies of biological
systems. J Am Chem Soc 100(16):5085-5089
65. Gutrath BS, Englert U, Wang Y, Simon U (2013) A missing link in undecagold cluster
chemistry: single-crystal X-ray analysis of [Au
11
(PPh
3
)
7
Cl
3
]. Eur J Inorg Chem 2013(12):
2002-2006
66. Wan X-K, Lin Z-W, Wang Q-M (2012) Au
20
nanocluster protected by hemilabile phos-
phines. J Am Chem Soc 134(36):14750-14752
67. Schmid G, Pfeil R, Boese R, Bandermann F, Meyer S, Calis GHM, van der Velden JWA
(1981) Au
55
[P(C
6
H
5
)
3
]12CI
6
- ein Goldcluster ungew¨hnlicher Gr¨ße. Chem Ber 114(11):
3634-3642
68. Bertino M, Sun Z-M, Zhang R, Wang L-S (2006) Facile syntheses of monodisperse ultrasmall
Au clusters. J Phys Chem B 110(43):21416-21418
69. Kamei Y, Shichibu Y, Konishi K. unpublished results
