Chemistry Reference
In-Depth Information
14. Marques M, Florez M, Recio JM et al (2006) Structure, metastability and electron density of
Al matrices in the light of the model of anions in metallic matrices. J Chem Phys B
110:18609-18618
15. Wondratchek H, Merker L, Schubert K (1964) Beziehungen zwischen der Apatit-Struktur und
der Struktur der Verbindungen vom Mn
5
Si
3
-(D88)Typ. Z Kristallogr 120:393-395
16. Addison WE (1965) Structural principles in inorganic compounds. Longmans, London
17. Wells AF (1975) Structural inorganic chemistry. Clarendon, Oxford
18. O'Keeffe M, Hyde BG (1985) An alternative approach to non-molecular crystal structures.
With emphasis on the arrangement of cations. Struct Bond 61:77-144
19. Santamaria-Perez D (2006) Reinterpretaci´n de las estructuras de aluminatos y silicates.
Equivalencia entre oxidaci´n y presi´n. PhD thesis, University Carlos III, Madrid
20. Klemm W (1958) Centenary-lecture - metalloids and their compounds with the alkali metals.
Proc Chem Soc Lond 12:329-341
21. Zintl E (1939) Intermetallische Verbindungen. Angew Chem 52:1-100
22. Pearson WB (1964) Crystal structures of semiconductors and a general valence rule. Acta
Crystallogr 17:1-15
23. Davy H (1811) Philos Trans R Soc Lond 101:1
24. Sloan ED, Koh CA (2007) Clathrate hydrates of natural gases, 3rd edn. CRC, Taylor and
Francis Group, Boca Raton
25. Powell HM (1948) The structure of molecular compounds. 4. Clathrate compounds. J Chem
Soc: 61-73
26. Liebau F (1983) Zeolites and clathrasils - two distinct classes of framework silicates. Zeolites
3:191-193
27. Baerlocher C, McCusker LB, Olson DH (2007) Atlas of zeolite framework types, sixth revised
edition. Elsevier, Amsterdam
28. Brunner GO, Meier WM (1989) Framework density distribution of zeolite-type tetrahedral
nets. Nature 337:146-147
29. von Stackelberg M, M¨ ller HR (1954) Feste Gashydrate: II. Struktur und Raumchemie. Z.
Elektrochem 58:25-39
30. Gies H (1983) Studies on clathrasils. 3. Crystal-structure of melanophlogite, a natural clath-
rate compound of silica. Z Kristallogr 164:247-257
31. von Schnering HG, Menke H, Kr¨ner R et al (1998) Crystal structure of the clathrates
Rb
8
In
8
Ge
38
and K
8
In
8
Ge
38
. Z Kristallogr NCS 213:673-674
32. Kasper JS, Hagenmuller P, Ponchard RM et al (1965) Clathrate structure of silicon and
Na
x
Si
136
. Science 150:1713-1714
33. Paschen S, Carrillo-Cabrera W, Bentien A et al (2001) Structural, transport, magnetic and
thermal properties of Eu
8
Ga
16
Ge
30
. Phys Rev B 64:214404
34. Eisenmann B, Sch¨fer H, Zagler R (1986) A
8
B
16
B
0
30
compounds (A=Sr, Ba; B=Al, Ga; B
0
=Si,
Ge, Sn) and their cage structures. J Less Common Metals 118:43-55
35. Yang L, Wang Y, Liu T et al (2005) Copper position in type-I Ba
8
Cu
4
Si
42
clathrate. J Solid
State Chem 118:1773-1777
36. Kuhl B, Czybulka A, Schuster HU (1995) New ternary clathrate compounds in the system Ba-
In/Zn/Cd-Ge: Zintl compounds with phase width? Z Anorg Allg Chem 621:1-6
37. Shatruk MM, Kovnir KA, Lindsj¨ M et al (2001) Novel compounds Sn
10
In
14
P
22
I
8
and
Sn
14
In
10
P
21.2
I
8
with clathrate I structure: synthesis and crystal and electronic structure.
J Solid State Chem 161:233-242
38. Kovnir KA, Shatruk MM, Reshetova LN et al (2005) Novel compounds Sn
20
Zn
4
P
20.8
I
8
,
Sn
17
Zn
7
P
22
I
8
, andSn
17
Zn
7
P
22
Br
8
: synthesis, properties, and special features of their clath-
rate-like crystal structures. Solid State Sci 7:957-968
39. Mudryk Y, Rogl P, Paul C et al (2002) Thermoelectricity of clathrate I Si and Ge phases.
J Phys Condens Matter 14:7991-8004
40. Corbett JD (1996) Zintl phases of the early p-block elements. In: Kauzlarich SM (ed)
Structure and bonding of Zintl phases and ions. VCH, Weinheim
