Species List, 23 elements

Gas, solid and liquid species present in the condensation code "VAPORS5g" database as of Sep 28 18:12:10 2001, including species added for testing (e.g.-FeNi FCC alloy, B83test phases, Fe-Ni-S liquid, BB84 liquid, etc.).
Many of the phases listed here are not allowed to exist in the runs used for Ebel and Grossman (2000) and related work, and the relevant tables (2, 3 and 4) should be consulted in this regard.
Listed phases are composed only of the following 23 elements:
He C N O F Ne Na Mg Al Si P S Cl Ar K Ca Ti Cr Mn Fe Co Ni

Gas species

Solid species

Liquid species

Notes on the tables

Formulae for gas species are in JANAF alphanumeric format.
GAS species present (ionic species are excluded at this time) (notes)

count	index	label	formula	reference
1	0	H(g)	H1	J-March 1982
2	1	He(ref)	He1	J-March 1982
3	5	C(g)	C1	J-March 1983
4	6	N(g)	N1	J-December 1982
5	7	O(g)	O1	J-September 1982
6	8	F(g)	F1	J-June 1982
7	9	Ne(ref)	Ne1	J-March 1982
8	10	Na(g)	Na1	J-December 1983
9	11	Mg(g)	Mg1	J-September 1983
10	12	Al(g)	Al1	J-June 1983
11	13	Si(g)	Si1	J-March 1983
12	14	P(g)	P1	J-December 1982
13	15	S(g)	S1	J-September 1982
14	16	Cl(g)	Cl1	J-June 1982
15	17	Ar(ref)	Ar1	J-March 1982
16	18	K(g)	K1	J-December 1983
17	19	Ca(g)	Ca1	J-September 1983
18	20	Ti(g)	Ti1	J-June 1979
19	22	Cr(g)	Cr1	J-June 1979
20	23	Mn(g)	Mn1	J-June 1984
21	24	Fe(g)	Fe1	J-March 1978
22	25	Co(g)	Co1	J-September 1967
23	26	Ni(g)	Ni1	J-December 1976
24	47	Al1Cl1(g)	Al1Cl1	J-September 1979
25	48	Al1Cl1F1(g)	Al1Cl1F1	J-June 1976
26	49	Al1Cl1F2(g)	Al1Cl1F2	J-June 1976
27	50	Al1Cl1O1(g)	Al1Cl1O1	J-September 1964
28	51	Al1Cl2(g)	Al1Cl2	J-June 1976
29	52	Al1Cl2F1(g)	Al1Cl2F1	J-June 1976
30	53	Al1Cl3(g)	Al1Cl3	J-September 1979
31	54	Al1F1(g)	Al1F1	J-September 1979
32	55	Al1F1O1(g)	Al1F1O1	J-December 1975
33	56	Al1F2(g)	Al1F2	J-June 1976
34	57	Al1F3(g)	Al1F3	J-September 1979
35	58	Al1H1(g)	Al1H1	J-June 1963
36	59	AlOH(g)	Al1H1O1	J-March 1964 OAlH
37	60	AlOH(g)	Al1H1O1	J-December 1967 AlOH
38	61	AlO2H(g)	Al1H1O2	J-December 1968
39	62	Al1N1(g)	Al1N1	J-December 1979
40	63	AlO(g)	Al1O1	J-December 1979
41	64	AlO2(g)	Al1O2	J-December 1979
42	65	Al1S1(g)	Al1S1	J-December 1979
43	66	Al2(g)	Al2	J-June 1979
44	67	Al2Cl6(g)	Al2Cl6	J-September 1979
45	68	Al2O(g)	Al2O1	J-December 1979
46	69	Al2O2(g)	Al2O2	J-December 1979
47	70	C1Al1(g)	C1Al1	J-June 1963
48	71	C1Cl1(g)	C1Cl1	J-December 1969
49	72	C1Cl1N1(g)	C1Cl1N1	J-June 1966
50	73	C1Cl1O1(g)	C1Cl1O1	J-December 1965
51	74	C1Cl2(g)	C1Cl2	J-December 1968
52	75	C1Cl2F2(g)	C1Cl2F2	J-June 1970
53	76	C1Cl2O1(g)	C1Cl2O1	J-June 1961
54	77	C1Cl3(g)	C1Cl3	J-June 1970
55	78	C1Cl4(g)	C1Cl4	J-December 1968
56	79	C1F1(g)	C1F1	J-June 1970
57	80	C1F1N1(g)	C1F1N1	J-June 1969
58	81	C1F1O1(g)	C1F1O1	J-December 1965
59	82	C1F2(g)	C1F2	J-June 1970
60	83	C1F2O1(g)	C1F2O1	J-December 1969
61	84	C1F3(g)	C1F3	J-June 1969
62	85	C1F4(g)	C1F4	J-June 1969
63	86	C1F4O1(g)	C1F4O1	J-December 1969
64	87	C1H1(g)	C1H1	J-December 1967
65	88	C1H1Cl3(g)	C1H1Cl3	J-December 1968
66	89	C1H1F1O1(g)	C1H1F1O1	J-June 1961
67	90	C1H1F3(g)	C1H1F3	J-June 1969
68	91	C1H1N1(g)	C1H1N1	J-December 1969
69	92	C1H1N1O1(g)	C1H1N1O1	J-December 1970
70	93	C1H1O1(g)	C1H1O1	J-December 1970
71	94	C1H1P1(g)	C1H1P1	J-December 1969
72	95	C1H2(g)	C1H2	J-December 1972
73	96	C1H2Cl1F1(g)	C1H2Cl1F1	J-June 1970
74	97	C1H2F2(g)	C1H2F2	J-December 1969
75	98	C1H2O1(g)	C1H2O1	J-March 1961
76	99	C1H3(g)	C1H3	J-June 1969
77	100	C1H3Cl1(g)	C1H3Cl1	J-June 1972
78	101	C1H3F1(g)	C1H3F1	J-December 1963
79	102	CH4(g)	C1H4	J-March 1961
80	103	C1K1N1(g)	C1K1N1	J-March 1966
81	104	C1N1(g)	C1N1	J-June 1969
82	105	C1N1Na1(g)	C1N1Na1	J-March 1966
83	106	C1N1O1(g)	C1N1O1	J-December 1970
84	107	C1N2(g)	C1N2	J-June 1966
85	108	C1N2(g)	C1N2	J-December 1970
86	109	CO(g)	C1O1	J-September 1965
87	110	C1O1S1(g)	C1O1S1	J-March 1961
88	111	CO2(g)	C1O2	J-September 1965
89	112	C1P1(g)	C1P1	J-June 1962
90	113	C1S1(g)	C1S1	J-December 1976
91	114	C1S2(g)	C1S2	J-December 1976
92	115	C1Si1(g)	C1Si1	J-March 1967
93	116	C1Si2(g)	C1Si2	J-March 1967
94	117	C2(g)	C2	J-December 1969
95	118	C2Cl2(g)	C2Cl2	J-December 1968
96	119	C2Cl4(g)	C2Cl4	J-September 1967
97	120	C2Cl6(g)	C2Cl6	J-September 1967
98	121	C2F2(g)	C2F2	J-December 1967
99	122	C2F4(g)	C2F4	J-June 1969
100	123	C2F6(g)	C2F6	J-June 1969
101	124	C2H1(g)	C2H1	J-March 1967
102	125	C2H1Cl1(g)	C2H1Cl1	J-December 1968
103	126	C2H1F1(g)	C2H1F1	J-December 1967
104	127	C2H2(g)	C2H2	J-March 1961
105	128	C2H4(g)	C2H4	J-September 1965
106	129	C2H4O1(g)	C2H4O1	J-September 1965
107	130	C2K2N2(g)	C2K2N2	J-March 1966
108	131	C2N1(g)	C2N1	J-March 1967
109	132	C2N2(g)	C2N2	J-March 1961
110	133	C2N2Na2(g)	C2N2Na2	J-March 1966
111	134	C2O1(g)	C2O1	J-September 1966
112	135	C2Si1(g)	C2Si1	J-March 1967
113	136	C3(g)	C3	J-December 1969
114	137	C3O2(g)	C3O2	J-June 1968
115	138	C4(g)	C4	J-December 1969
116	139	C4H12Si1(g)	C4H12Si1	J-December 1960
117	140	C4N2(g)	C4N2	J-March 1961
118	141	C5(g)	C5	J-December 1969
119	142	C5Fe1O5(g)	C5Fe1O5	J-March 1978
120	143	Ca1Cl2(g)	Ca1Cl2	J-June 1970
121	144	Ca1F1(g)	Ca1F1	J-December 1968
122	145	Ca1F2(g)	Ca1F2	J-December 1968
123	146	Ca1H1O1(g)	Ca1H1O1	J-December 1975
124	147	Ca1H2O2(g)	Ca1H2O2	J-December 1975
125	148	CaO(g)	Ca1O1	J-December 1974
126	149	Ca1S1(g)	Ca1S1	J-September 1977
127	150	Ca2(g)	Ca2	J-September 1983
128	151	Cl1Co1(g)	Cl1Co1	J-December 1973
129	152	Cl1F1(g)	Cl1F1	J-June 1977
130	153	Cl1F1Mg1(g)	Cl1F1Mg1	J-March 1966
131	154	Cl1F1O3(g)	Cl1F1O3	J-March 1961
132	155	Cl1F2O1P1(g)	Cl1F2O1P1	J-March 1963
133	156	Cl1F3(g)	Cl1F3	J-September 1965
134	157	Cl1F5(g)	Cl1F5	J-June 1966
135	158	Cl1Fe1(g)	Cl1Fe1	J-June 1965
136	159	HCl(g)	Cl1H1	J-September 1964
137	160	Cl1H1O1(g)	Cl1H1O1	J-March 1979
138	161	KCl(g)	Cl1K1	J-March 1966
139	162	MgCl(g)	Cl1Mg1	J-March 1966
140	163	Cl1N1O1(g)	Cl1N1O1	J-December 1972
141	164	Cl1N1O2(g)	Cl1N1O2	J-December 1965
142	165	NaCl(g)	Cl1Na1	J-December 1964
143	166	NiCl(g)	Cl1Ni1	J-September 1977
144	167	NiO(g)	Cl1O1	J-June 1961
145	168	Cl1O1Ti1(g)	Cl1O1Ti1	J-September 1963
146	169	Cl1O2(g)	Cl1O2	J-March 1961
147	170	Cl1P1(g)	Cl1P1	J-December 1963
148	171	Cl1Si1(g)	Cl1Si1	J-December 1976
149	172	Cl1Ti1(g)	Cl1Ti1	J-December 1968
150	173	Cl2(ref)	Cl2	J-June 1982
151	174	Cl2Co1(g)	Cl2Co1	J-December 1974
152	175	Cl2F1O1P1(g)	Cl2F1O1P1	J-March 1963
153	176	Cl2Fe1(g)	Cl2Fe1	J-December 1970
154	177	Cl2H2Si1(g)	Cl2H2Si1	J-December 1976
155	178	Cl2K2(g)	Cl2K2	J-March 1966
156	179	Cl2Mg1(g)	Cl2Mg1	J-December 1969
157	180	Cl2Na2(g)	Cl2Na2	J-December 1964
158	181	Cl2Ni1(g)	Cl2Ni1	J-September 1977
159	182	Cl2O1(g)	Cl2O1	J-December 1965
160	183	Cl2O1Ti1(g)	Cl2O1Ti1	J-September 1963
161	184	Cl2Si1(g)	Cl2Si1	J-December 1977
162	185	Cl2Ti1(g)	Cl2Ti1	J-December 1968
163	186	Cl3Co1(g)	Cl3Co1	J-December 1973
164	187	Cl3F1Si1(g)	Cl3F1Si1	J-December 1960
165	188	Cl3Fe1(g)	Cl3Fe1	J-June 1965
166	189	Cl3H1Si1(g)	Cl3H1Si1	J-December 1976
167	190	Cl3O1P1(g)	Cl3O1P1	J-June 1962
168	191	Cl3P1(g)	Cl3P1	J-June 1970
169	192	Cl3P1S1(g)	Cl3P1S1	J-September 1962
170	193	Cl3Ti1(g)	Cl3Ti1	J-December 1968
171	194	Cl4Co2(g)	Cl4Co2	J-December 1973
172	195	Cl4Fe2(g)	Cl4Fe2	J-December 1970
173	196	Cl4Si1(g)	Cl4Si1	J-December 1970
174	197	Cl4Ti1(g)	Cl4Ti1	J-December 1967
175	198	Cl5P1(g)	Cl5P1	J-September 1962
176	199	Cl6Fe2(g)	Cl6Fe2	J-June 1965
177	200	Co1F2(g)	Co1F2	J-June 1970
178	201	Cr1O1(g)	Cr1O1	J-December 1973
179	202	Cr1O2(g)	Cr1O2	J-December 1973
180	203	Cr1O3(g)	Cr1O3	J-December 1973
181	204	F1Fe1(g)	F1Fe1	J-September 1965
182	205	F1H1(g)	F1H1	J-June 1977
183	206	F1H1O1(g)	F1H1O1	J-December 1972
184	207	F1H3Si1(g)	F1H3Si1	J-June 1976
185	208	F1K1(g)	F1K1	J-June 1969
186	209	F1Mg1(g)	F1Mg1	J-June 1976
187	210	F1N1(g)	F1N1	J-June 1965
188	211	F1N1O1(g)	F1N1O1	J-June 1961
189	212	F1N1O2(g)	F1N1O2	J-December 1965
190	213	F1N1O3(g)	F1N1O3	J-March 1963
191	214	F1Na1(g)	F1Na1	J-December 1968
192	215	F1O1(g)	F1O1	J-December 1966
193	216	F1O1Ti1(g)	F1O1Ti1	J-September 1963
194	217	F1O2(g)	F1O2	J-September 1966
195	218	F1P1(g)	F1P1	J-June 1977
196	219	F1P1S1(g)	F1P1S1	J-September 1962
197	220	F1Si1(g)	F1Si1	J-December 1976
198	221	F1Ti1(g)	F1Ti1	J-December 1967
199	222	F2(ref)	F2	J-June 1982
200	223	F2Fe1(g)	F2Fe1	J-September 1965
201	224	F2H2Si1(g)	F2H2Si1	J-June 1976
202	225	F2K2(g)	F2K2	J-June 1969
203	226	F2Mg1(g)	F2Mg1	J-June 1975
204	227	F2N1(g)	F2N1	J-March 1964
205	228	F2N2(g)	F2N2	FNNF J-December 1965
206	229	F2N2(g)	F2N2	NNF2 J-December 1965
207	230	F2Na2(g)	F2Na2	J-December 1968
208	231	F2O1(g)	F2O1	J-December 1969
209	232	F2O1S1(g)	F2O1S1	J-June 1972
210	233	F2O1Si1(g)	F2O1Si1	J-September 1963
211	234	F2O1Ti1(g)	F2O1Ti1	J-September 1963
212	235	F2O2S1(g)	F2O2S1	J-June 1971
213	236	F2P1(g)	F2P1	J-June 1977
214	237	F2Si1(g)	F2Si1	J-December 1977
215	238	F2Ti1(g)	F2Ti1	J-December 1968
216	239	F3Fe1(g)	F3Fe1	J-September 1965
217	240	F3H1Si1(g)	F3H1Si1	J-June 1976
218	241	F3N1(g)	F3N1	J-June 1977
219	242	F3O1P1(g)	F3O1P1	J-December 1969
220	243	F3P1(g)	F3P1	J-December 1969
221	244	F3P1S1(g)	F3P1S1	J-December 1969
222	245	F3Si1(g)	F3Si1	J-December 1977
223	246	F3Ti1(g)	F3Ti1	J-June 1968
224	247	F4Mg2(g)	F4Mg2	J-December 1975
225	248	F4N2(g)	F4N2	J-March 1964
226	249	F4S1(g)	F4S1	J-June 1976
227	250	F4Si1(g)	F4Si1	J-June 1976
228	251	F4Ti1(g)	F4Ti1	J-September 1967
229	252	F5P1(g)	F5P1	J-December 1969
230	253	F6S1(g)	F6S1	J-June 1976
231	254	Fe1H2O2(g)	Fe1H2O2	J-December 1966
232	255	FeO(g)	Fe1O1	J-September 1966
233	256	FeS(g)	Fe1S1	J-September 1977
234	257	H1K1(g)	H1K1	J-March 1963
235	258	H1K1O1(g)	H1K1O1	J-December 1970
236	259	H1Mg1(g)	H1Mg1	J-December 1966
237	260	H1Mg1O1(g)	H1Mg1O1	J-December 1975
238	261	H1N1(g)	H1N1	J-June 1977
239	262	H1N1O1(g)	H1N1O1	J-March 1963
240	263	H1N1O2(g)	H1N1O2	J-June 1963
241	264	H1N1O2(g)	H1N1O2	J-June 1963
242	265	H1N1O3(g)	H1N1O3	J-June 1963
243	266	H1Na1(g)	H1Na1	J-March 1963
244	267	NaOH(g)	H1Na1O1	J-December 1970
245	268	OH(g)	H1O1	J-June 1977
246	269	H1O2(g)	H1O2	J-September 1978
247	270	H1P1(g)	H1P1	J-June 1967
248	271	H1S1(g)	H1S1	J-June 1977
249	272	H1Si1(g)	H1Si1	J-December 1976
250	273	H2(ref)	H2	J-March 1977
251	274	H2Mg1O2(g)	H2Mg1O2	J-December 1975
252	275	H2N1(g)	H2N1	J-June 1977
253	276	H2N2(g)	H2N2	J-December 1965
254	277	H2Na2O2(g)	H2Na2O2	J-December 1970
255	278	H2O(g)	H2O1	J-March 1979
256	279	H2O2(g)	H2O2	J-December 1960
257	280	H2O4S1(g)	H2O4S1	J-September 1977
258	281	H2P1(g)	H2P1	J-March 1963
259	282	H2S1(g)	H2S1	J-June 1977
260	283	NH3(g)	H3N1	J-June 1977
261	284	H3P1(g)	H3P1	J-June 1962
262	285	H4N2(g)	H4N2	J-December 1965
263	286	H4Si1(g)	H4Si1	J-June 1976
264	287	K1O1(g)	K1O1	J-December 1967
265	288	K2(g)	K2	J-December 1983
266	289	K2O4S1(g)	K2O4S1	J-June 1978
267	290	Mg1N1(g)	Mg1N1	J-March 1964
268	291	Mg1O1(g)	Mg1O1	J-December 1974
269	292	Mg1S1(g)	Mg1S1	J-September 1977
270	293	Mg2(g)	Mg2	J-September 1983
271	294	N1O1(g)	N1O1	J-June 1963
272	295	N1O2(g)	N1O2	J-September 1964
273	296	N1O3(g)	N1O3	J-December 1964
274	297	N1P1(g)	N1P1	J-September 1962
275	298	N1S1(g)	N1S1	J-June 1961
276	299	N1Si1(g)	N1Si1	J-March 1967
277	300	N1Si2(g)	N1Si2	J-March 1967
278	301	N2(ref)	N2	J-March 1977
279	302	N2O1(g)	N2O1	J-December 1964
280	303	N2O3(g)	N2O3	J-December 1964
281	304	N2O4(g)	N2O4	J-September 1964
282	305	Na2O4S1(g)	Na2O4S1	J-June 1978
283	306	N2O5(g)	N2O5	J-December 1964
284	307	N3(g)	N3	J-December 1970
285	308	NaO(g)	Na1O1	J-December 1967
286	309	Na2(g)	Na2	J-December 1983
287	310	O1P1(g)	O1P1	J-June 1971
288	311	O1S1(g)	O1S1	J-June 1977
289	312	O1S2(g)	O1S2	J-September 1965
290	313	SiO(g)	O1Si1	J-September 1967
291	314	O1Ti1(g)	O1Ti1	J-December 1973
292	315	O10P4(g)	O10P4	J-December 1965
293	316	O2(g)	O2	(ref)J-March 1977
294	317	O2P1(g)	O2P1	J-September 1962
295	318	SO2(g)	O2S1	J-June 1961
296	319	O2Si1(g)	O2Si1	J-September 1967
297	320	O2Ti1(g)	O2Ti1	J-December 1973
298	321	O3(g)	O3	J-June 1961
299	322	O3S1(g)	O3S1	J-September 1965
300	323	O6P4(g)	O6P4	J-December 1962
301	324	P1S1(g)	P1S1	J-June 1967
302	325	P2(g)	P2	J-June 1961
303	326	P4(g)	P4	J-June 1961
304	327	P4S3(g)	P4S3	J-December 1960
305	328	S1Si1(g)	S1Si1	J-December 1971
306	329	S2(g)	S2	J-September 1977
307	330	S8(g)	S8	J-September 1977
308	331	Si2(g)	Si2	J-March 1967
309	332	Si3(g)	Si3	J-March 1967
310	344	Al1F2O1(g)	Al1F2O1	J-June 1976
311	347	Al1F4Na1(g)	Al1F4Na1	J-December 1979
312	354	Al1F1O1(g)	Al1F1O1	J-December 1975
313	356	Al1O2(g)	Al1O2	J-December 1979
314	359	Al2F6(g)	Al2F6	J-September 1979
315	369	C1Cl1F3(g)	C1Cl1F3	J-June 1969
316	370	C1Cl3F1(g)	C1Cl3F1	J-June 1970
317	374	C1F8S1(g)	C1F8S1	J-December 1977
318	375	C1H1Cl1(g)	C1H1Cl1	J-December 1969
319	376	C1H1Cl1F2(g)	C1H1Cl1F2	J-June 1970
320	377	C1H1Cl2F1(g)	C1H1Cl2F1	J-June 1970
321	378	C1H1F1(g)	C1H1F1	J-December 1969
322	379	C1H2Cl2(g)	C1H2Cl2	J-December 1968
323	384	C1Cl1F1O1(g)	C1Cl1F1O1	J-June 1961
324	464	Ca1Cl1(g)	Ca1Cl1	J-June 1970
325	474	Cr1N1(g)	Cr1N1	J-December 1973
326	477	F2S2(g)	F2S2	FSSF J-June 1976
327	478	F2S2(g)	F2S2	SSF2 J-June 1976
328	490	F1H1O3S1(g)	F1H1O3S1	J-June 1972
329	493	F2H2(g)	F2H2	J-June 1977
330	494	F3H3(g)	F3H3	J-June 1977
331	496	F1H3Si1(g)	F1H3Si1	J-June 1976
332	497	F4H4(g)	F4H4	J-June 1977
333	498	F5H5(g)	F5H5	J-June 1977
334	499	F6H6(g)	F6H6	J-June 1977
335	500	F7H7(g)	F7H7	J-June 1977
336	511	H2K2O2(g)	H2K2O2	J-December 1970
337	523	Cl4Mg2(g)	Cl4Mg2	J-December 1969
338	528	F3N1O1(g)	F3N1O1	J-June 1970
339	544	C4Ni1O4(g)	C4Ni1O4	J-March 1978
340	545	Ni1S1(g)	Ni1S1	J-December 1976
341	568	Cl1S1(g)	Cl1S1	J-June 1978
342	570	Cl1F5S1(g)	Cl1F5S1	J-December 1977
343	571	Cl2S1(g)	Cl2S1	J-June 1978
344	574	F1S1(g)	F1S1	J-June 1976
345	577	F2S1(g)	F2S1	J-June 1976
346	580	F3S1(g)	F3S1	J-June 1977
347	587	Cl2O2S1(g)	Cl2O2S1	J-June 1971
348	588	Cl1F1O2S1(g)	Cl1F1O2S1	J-June 1971
349	589	Cl1S2(g)	Cl1S2	J-June 1978
350	590	Cl2S2(g)	Cl2S2	J-June 1978
351	591	F10S2(g)	F10S2	J-December 1977
352	592	S3(g)	S3	J-September 1977
353	593	S4(g)	S4	J-September 1977
354	594	S5(g)	S5	J-September 1977
355	595	S6(g)	S6	J-September 1977
356	596	S7(g)	S7	J-September 1977
357	603	Cl3Si1(g)	Cl3Si1	J-December 1977
358	604	Cl3F1Si1(g)	Cl3F1Si1	J-December 1960
359	877	C2H4O1(g)	C2H4O1	J-September 1965
360	878	O10P4(g)	O10P4	J-December 1965
361	879	CrCl2(g)	Cl2Cr1	Knacke et al 1991
362	880	chromyl-chloride	Cl2Cr1O2	Knacke et al 1991
363	881	CrS(g)	Cr1S1	Knacke et al 1991
364	882	MnF2(g)	F2Mn1	Knacke et al 1991
365	883	MnCl2(g)	Cl2Mn1	Knacke et al 1991
366	884	TiS(g)	S1Ti1	Knacke et al 1991
367	910	NiF(g)	F1Ni1	Knacke et al 1991
368	911	Ni1F2(g)	F2Ni1	Knacke et al 1991
369	915	NiAl2Cl8(g)	Al2Cl8Ni1	Knacke et al 1991
370	916	NiO(g)	Ni1O1	Knacke et al 1991
371	917	Ni(OH)2(g)	H2Ni1O2	Knacke et al 1991
372	918	NiH(g)	H1Ni1	Knacke et al 1991
373	933	CoO(g)	Co1O1	PedleyandMarshall 83
374	934	MnO(g)	Mn1O1	PedleyandMarshall 83

SOLID phases and components present: (notes)

n	i	m	label	formula	data source
	1	0	IDEAL-Fe-alloy		JANAF G0 + IDEAL ss.
1	2	1	iron	Fe	JANAF G0 + IDEAL ss.
2	3	2	nickel	Ni	JANAF G0
3	4	3	silicon	Si	JANAF G0
4	5	4	cobalt	Co	JANAF G0
5	6	5	chromium	Cr	JANAF G0
6	7	6	manganese	Mn	JANAF G0
	8	0	REAL-FeNi-alloy		JANAF G0 + Chuang 86 FCC model
7	9	1	FeNi-iron	Fe	JANAF G0
8	10	2	FeNi-nickel	Ni	JANAF G0
	11	0	FeNiSiCrCo-alloy		JANAF G0 + DSE model
9	12	1	FNSCC-iron	Fe	JANAF G0
10	13	2	FNSCC-nickel	Ni	JANAF G0
11	14	3	FNSCC-silicon	Si	JANAF G0
12	15	4	FNSCC-chromium	Cr	JANAF G0
13	16	5	FNSCC-cobalt	Co	JANAF G0
14	18		Ca-aluminate	CaAl2O4	B. and Brown 85 Cp + B.83
15	19		grossite	CaAl4O7	B. and Brown 85 Cp + B.83
16	20		Rankinite	Ca3Si2O7	B. and Brown 85 Cp + B.83
17	21		tri-Ca-aluminate	Ca3Al2O6	B. and Brown 85 Cp + B.83
18	22		hatrurite	Ca3SiO5	B. and Brown 85 Cp + B.83
19	23		anthophyllite	Mg7Si8O22(OH)2	Berman 88
20	24		andalusite	Al2SiO5	Berman 88
21	25		brucite	Mg(OH)2	Berman 88
22	26		calcite	CaCO3	Berman 88
23	27		cordierite	Mg2Al4Si5O18	Berman 88
24	28		dolomite	CaMg(CO3)2	Berman 88
25	29		lime	CaO	Berman 88
26	30		magnesite	MgCO3	Berman 88
27	31		merwinite	Ca3MgSi2O8	Berman 88
28	32		periclase	MgO	Berman 88
29	33		sillimanite	Al2SiO5	Berman 88
30	34		talc	Mg3Si4O10(OH)2	Berman 88
31	35		wollastonite	CaSiO3	MELTS (Berman 88)
32	36		hibonite-B83	CaAl12O19	all Berman 83
33	37		a-larnite-B83	Ca2SiO4	all Berman 83
34	38		a'-larnite-B83	Ca2SiO4	all Berman 83
35	39		g-larnite-B83	Ca2SiO4	all Berman 83
36	40		b-larnite-B83	Ca2SiO4	all Berman 83
37	41		sapphirine-B83	Mg4Al10Si2O23	all Berman 83
38	42		grossite-B83	CaAl4O7	all Berman 83
39	43		Ca-aluminate-B83	CaAl2O4	all Berman 83
40	44		CaO-B83test	CaO	all Berman 83
41	45		MgO-B83test	MgO	all Berman 83
42	46		SiO2-B83test	SiO2	all Berman 83
43	47		diopside-B83test	CaMgSi2O6	all Berman 83
44	48		forsterite-B83test	Mg2SiO4	all Berman 83
45	49		proto-enst-B83test	MgSiO3	all Berman 83
46	50		spinel-B83test	MgAl2O4	all Berman 83
47	51		anorthite-B83test	CaAl2Si2O8	all Berman 83
48	52		gehlenite-B83test	Ca2Al2SiO7	all Berman 83
49	53		akermanite-B83test	Ca2MgSi2O7	all Berman 83
50	54		monticellite-B83test	CaMgSiO4	all Berman 83
51	55		corundum-B83test	Al2O3	all Berman 83
52	56		Ca-aluminate-B83test	CaAl2O4	all Berman 83
53	57		grossite-B83test	CaAl4O7	all Berman 83
54	58		cordierite-HP98test	Mg2Al4Si5O18	HandP98 + RHF79a Cp form
55	59		sapphirine-HP98test	Mg4Al8Si2O20	HandP98 + RHF79a Cp form
56	60		pure-troilite	FeS	Chang et al 87 G0
57	61		pure-diopside	CaMgSi2O6	MELTS (Berman 88)
58	62		pure-forsterite	Mg2SiO4	MELTS (Berman 88)
59	63		pure-spinel	MgAl2O4	MELTS (Berman 88)
60	64		pure-gehlenite	Ca2Al2SiO7	MELTS (Berman 88)
61	65		corundum	Al2O3	MELTS (Berman 88)
	65	0	olivine		MELTS (Berman 88; SG-89)
62	66	1	fayalite	Fe2SiO4	MELTS (Berman 88)
63	67	2	forsterite	Mg2SiO4	MELTS (Berman 88)
64	68	3	monticellite	CaMgSiO4	MELTS (Berman 88)
65	70		sphene	CaTiSiO5	MELTS (Berman 88)
	70	0	garnet		MELTS (Berman 88; Berman ss.)
66	71	1	almandine	Fe3Al2Si3O12	MELTS (Berman 88)
67	72	2	grossular	Ca3Al2Si3O12	MELTS (Berman 88)
68	73	3	pyrope	Mg3Al2Si3O12	MELTS (Berman 88)
	74	0	melilite		MELTS (Berman 88; Charlu et al. ss.)
69	75	1	akermanite	Ca2MgSi2O7	MELTS (Berman 88)
70	76	2	gehlenite	Ca2Al2SiO7	MELTS (Berman 88)
	77	0	orthopyroxene		MELTS (Berman 88; SG-89)
71	78	1	enstatite	Mg2Si2O6	MELTS (Berman 88)
72	79	2	ferrosilite	Fe2Si2O6	MELTS (Berman 88)
	80	0	pyroxene		MELTS (Berman 88; SG-91abc)
73	81	1	diopside	CaMgSi2O6	MELTS (Berman 88)
74	82	2	clinoenstatite	Mg2Si2O6	MELTS (Berman 88)
75	83	3	hedenbergite	CaFeSi2O6	MELTS (Berman 88)
76	84	4	alumino-buffonite	CaTi0.5Mg0.5AlSiO6	MELTS (Berman 88)
77	85	5	buffonite	CaTi0.5Mg0.5FeSiO6	MELTS (Berman 88)
78	86	6	essenite	CaFeAlSiO6	MELTS (Berman 88)
79	87	7	jadeite	NaAlSi2O6	MELTS (Berman 88)
80	89		aenigmatite	Na2Fe5TiSi6O20	MELTS (estimates)
	89	0	cummingtonite		MELTS (Berman 88; Ghiorso et al. ss)
81	90	1	cummingtonite	Mg7Si8O22(OH)2	MELTS (Berman 88)
82	91	2	grunerite	Fe7Si8O22(OH)2	MELTS (Berman 88)
	92	0	biotite		MELTS (Berman 88; SG-91a)
83	93	1	annite	KFe3Si3AlO10(OH)2	MELTS (Berman 88)
84	94	2	phlogopite	KMg3Si3AlO10(OH)2	MELTS (Berman 88)
85	96		muscovite	KAl2Si3AlO10(OH)2	MELTS (Berman 88)
	96	0	feldspar		MELTS (Berman 88; Elkins and Grove ss.)
86	97	1	albite	NaAlSi3O8	MELTS (Berman 88)
87	98	2	anorthite	CaAl2Si2O8	MELTS (Berman 88)
88	99	3	sanidine	KAlSi3O8	MELTS (Berman 88)
89	101		quartz	SiO2	MELTS (Berman 88)
90	102		tridymite	SiO2	MELTS (Berman 88)
91	103		cristobalite	SiO2	MELTS (Berman 88)
92	104		nepheline	NaAlSiO4	MELTS (Berman pers comm. MSG)
93	105		kalsilite	KAlSiO4	MELTS (Berman pers comm. MSG)
94	106		leucite	KAlSi2O6	MELTS (Berman pers comm. MSG)
95	107		rutile	TiO2	MELTS (Berman 88)
96	108		perovskite	CaTiO3	MELTS (Robie et al 78)
	108	0	spinel		MELTS (Berman 88; SG-91ab)
97	109	1	chromite	FeCr2O4	MELTS (Berman 88)
98	110	2	hercynite	FeAl2O4	MELTS (Berman 88)
99	111	3	magnetite	Fe3O4	MELTS (Berman 88)
100	112	4	spinel	MgAl2O4	MELTS (Berman 88)
101	113	5	ulvospinel	Fe2TiO4	MELTS (Berman 88)
	114	0	rhm-oxide		MELTS (Berman 88; GS-91)
102	115	1	geikielite	MgTiO3	MELTS (Ghiorso 90)
103	116	2	hematite	Fe2O3	MELTS (Ghiorso 90)
104	117	3	ilmenite	FeTiO3	MELTS (Berman 88)
105	118	4	pyrophanite	MnTiO3	MELTS (misc)
106	120		whitlockite	Ca3(PO4)2	MELTS (misc.)
107	121		apatite	Ca5(PO4)3OH	MELTS (Zhu and Sverj.)
108	122		water	H2O	MELTS (Berman 88)
109	123		Al1(cr)	Al1	BB85 Cp form: JANAF June 1983
110	124		alpha-cryolite	Al1F6Na3	BB85 Cp form: JANAF December 1979
111	125		beta-cryolite	Al1F6Na3	BB85 Cp form: JANAF December 1979
112	126		Al1N1(cr)	Al1N1	BB85 Cp form: JANAF December 1979
113	127		Al1Na1O2(cr)	Al1Na1O2	BB85 Cp form: JANAF March 1963
114	128		Al6O13Si2(cr)	Al6O13Si2	BB85 Cp form: JANAF September 1967
115	129		C1(ref)	C1	BB85 Cp form: JANAF March 1978 (1 bar)
116	130		C1N1Na1(cr)	C1N1Na1	BB85 Cp form: JANAF March 1966
117	131		C1Na2O3(cr)	C1Na2O3	BB85 Cp form: JANAF March 1966
118	132		alpha-SiC	C1Si1	BB85 Cp form: JANAF Mar67 less stable
119	133		beta-SiC	C1Si1	BB85 Cp form: JANAF Mar67 more stable
120	134		C1Ti1(cr)	C1Ti1	BB85 Cp form: JANAF June 1968
121	135		C2Mg1(cr)	C2Mg1	BB85 Cp form: JANAF December 1960
122	136		C3Al4(cr)	C3Al4	BB85 Cp form: JANAF September 1965
123	137		C3Mg2(cr)	C3Mg2	BB85 Cp form: JANAF December 1960
124	138		alpha-Ca	Ca1	BB85 Cp form: JANAF September 1983
125	139		beta-Ca	Ca1	BB85 Cp form: JANAF September 1983
126	140		Ca1Cl2(cr)	Ca1Cl2	BB85 Cp form: JANAF June 1970
127	141		Ca1F2(cr)	Ca1F2	BB85 Cp form: JANAF December 1968
128	142		Ca1S1(cr)	Ca1S1	BB85 Cp form: JANAF September 1977
129	143		Cl1K1(cr)	Cl1K1	BB85 Cp form: JANAF March 1966
130	144		Cl1Na1(cr)	Cl1Na1	BB85 Cp form: JANAF September 1964
131	145		Cl2Mg1(cr)	Cl2Mg1	BB85 Cp form: JANAF December 1965
132	146		Co1O1(cr)	Co1O1	BB85 Cp form: JANAF December 1970
133	147		Cr2O3(cr)	Cr2O3	BB85 Cp form: JANAF December 1973
134	148		F1Na1(cr)	F1Na1	BB85 Cp form: JANAF December 1968
135	149		F2Mg1(cr)	F2Mg1	BB85 Cp form: JANAF June 1975
136	150		Fe1O1(cr)	Fe1O1	BB85 Cp form: JANAF June 1965
137	151		Fe1O4S1(cr)	Fe1O4S1	BB85 Cp form: JANAF June 1966
138	152		Fe2O12S3(cr)	Fe2O12S3	BB85 Cp form: JANAF June 1966
139	153		H1Na1(cr)	H1Na1	BB85 Cp form: JANAF March 1963
140	154		H2Mg1(cr)	H2Mg1	BB85 Cp form: JANAF September 1963
141	155		K2O1(cr)	K2O1	BB85 Cp form: JANAF June 1963
142	156		Mg1(cr)	Mg1	BB85 Cp form: JANAF September 1983
143	157		Mg1O4S1(cr)	Mg1O4S1	BB85 Cp form: JANAF March 1966
144	158		Mg1O5Ti2(cr)	Mg1O5Ti2	BB85 Cp form: JANAF June 1967
145	159		Mg1S1(cr)	Mg1S1	BB85 Cp form: JANAF September 1977
146	160		Mg2Si1(cr)	Mg2Si1	BB85 Cp form: JANAF December 1960
147	161		Mg3N2(cr)	Mg3N2	BB85 Cp form: JANAF December 1960
148	162		TiN osbornite	N1Ti1	BB85 Cp form: JANAF June 1968
149	163		N4Si3(cr)	N4Si3	BB85 Cp form: JANAF March 1967
150	164		Na1O2(cr)	Na1O2	BB85 Cp form: JANAF June 1963
151	165		Na2O1(cr)	Na2O1	BB85 Cp form: JANAF June 1968
152	166		Na2O2(cr)	Na2O2	BB85 Cp form: JANAF June 1968
153	167		Na2O3Si1(cr)	Na2O3Si1	BB85 Cp form: JANAF September 1967
154	168		Na2SO4-delta	Na2O4S1	BB85 Cp form: JANAF June 1978
155	169		Na2SO4-I	Na2O4S1	BB85 Cp form: JANAF June 1978
156	170		Na2SO4-III	Na2O4S1	BB85 Cp form: JANAF June 1978
157	171		Na2SO4-IV	Na2O4S1	BB85 Cp form: JANAF June 1978
158	172		Na2SO4-V	Na2O4S1	BB85 Cp form: JANAF June 1978
159	173		Na2O5Si2(cr)	Na2O5Si2	BB85 Cp form: JANAF September 1967
160	174		Na2S1(cr)	Na2S1	BB85 Cp form: JANAF March 1978
161	175		alpha-TiO	O1Ti1	BB85 Cp form: JANAF December 1973
162	176		beta-TiO	O1Ti1	BB85 Cp form: JANAF December 1973
163	177		O3Ti2(cr)	O3Ti2	BB85 Cp form: JANAF June 1973
164	178		Ti3O5-alpha	O5Ti3	BB85 Cp form: JANAF December 1973
165	179		Ti3O5-beta	O5Ti3	BB85 Cp form: JANAF December 1973
166	180		O7Ti4(cr)	O7Ti4	BB85 Cp form: JANAF December 1973
167	181		S2Si1(cr)	S2Si1	BB85 Cp form: JANAF June 1972
168	182		Ti-alpha	Ti1	BB85 Cp form: JANAF June 1979
169	183		Ti-beta	Ti1	BB85 Cp form: JANAF June 1979
170	184		portlandite	Ca1H2O2	BB85 Cp form: JANAF December 1975
171	185		Cl2Fe1(cr)	Cl2Fe1	BB85 Cp form: JANAF December 1970
172	186		Fe0.947O-wustite	Fe0.947O1	BB85 Cp form: JANAF June 1965
173	187		K2O4S1(cr)-alpha	K2O4S1	BB85 Cp form: JANAF June 1978
174	188		K2O4S1(cr)-beta	K2O4S1	BB85 Cp form: JANAF June 1978
175	189		Al2S3(cr)	Al2S3	BB85 Cp form: JANAF December 1979
176	190		K1(cr)	K1	BB85 Cp form: JANAF December 1961
177	191		Na1(cr)	Na1	BB85 Cp form: JANAF June 1962
178	192		Fe1S2(cr)-1	Fe1S2	BB85 Cp form: JANAF September 1977
179	193		Fe1S2(cr)-2	Fe1S2	BB85 Cp form: JANAF September 1977
180	194		Fe1H2O2(cr)	Fe1H2O2	BB85 Cp form: JANAF June 1966
181	195		Fe1H3O3(cr)	Fe1H3O3	BB85 Cp form: JANAF June 1966
182	196		JANAF-Fe0.877S-po	Fe0.877S1	SPECIAL G: JANAF September 1977
183	197		NEW-Fe0.877S-po	Fe0.877S1	SPECIAL G: JANAF + 5kJ
184	198		S-alpha	S1	BB85 Cp form: JANAF September 1977
185	199		S-beta	S1	BB85 Cp form: JANAF September 1977
186	200		H1Na1O1(cr)	H1Na1O1	BB85 Cp form: JANAF December 1970
187	201		Na2S2(cr)	Na2S2	BB85 Cp form: JANAF December 1983
188	202		C2Cr3(cr)	C2Cr3	BB85 Cp form: JANAF December 1973
189	203		Cr1N1(cr)	Cr1N1	BB85 Cp form: JANAF December 1973
190	204		H2Ti1(cr)	H2Ti1	BB85 Cp form: JANAF June 1963
191	234		Cl1H4N1(cr)	Cl1H4N1	BB85 Cp form: JANAF September 1965
192	235		Cr1N1(cr)	Cr1N1	BB85 Cp form: JANAF December 1973
193	236		Cr2N1(cr)	Cr2N1	BB85 Cp form: JANAF December 1973
194	237		C2Cr3(cr)	C2Cr3	BB85 Cp form: JANAF December 1973
195	260		H1K1(cr)	H1K1	BB85 Cp form: JANAF March 1963
196	261		F1K1(cr)	F1K1	BB85 Cp form: JANAF June 1969
197	263		H1K1O1(cr)	H1K1O1	BB85 Cp form: JANAF December 1970
198	265		K2O3Si1(cr)	K2O3Si1	BB85 Cp form: JANAF June 1972
199	293		P1(cr)	P1	BB85 Cp form: JANAF June 1961
200	294		P1(cr)	P1	BB85 Cp form: JANAF June 1969
201	295		P1(cr)	P1	BB85 Cp form: JANAF June 1961
202	296		P1(cr)	P1	BB85 Cp form: JANAF June 1969
203	342		F2Fe1(cr)	F2Fe1	BB85 Cp form: JANAF September 1965
204	343		F2H1K1(cr)	F2H1K1	BB85 Cp form: JANAF June 1971
205	346		F2Mg1(cr)	F2Mg1	BB85 Cp form: JANAF June 1975
206	352		K2S1(cr)	K2S1	BB85 Cp form: JANAF March 1978
207	353		anhydrite	Ca1O4S1	BB85 Cp form: Robie 79
208	354		Fe3C-cohenite	C1Fe3	BB85 Cp form: Robie 79
209	355		MnO-manganosite	Mn1O1	RHF79a Cp form: Robie 79
210	356		sinoite	Si2N2O1	Berman 83 Cp form: Fegley 81

LIQUID phases and components present: (notes)

n	i	m	label	formula	data source
	0	0	MELTS-Liquid		MELTS model
1	1	1	SiO2	SiO2	MELTS original data
2	2	2	TiO2	TiO2	MELTS original data
3	3	3	Al2O3	Al2O3	MELTS original data
4	4	4	Fe2O3	Fe2O3	MELTS original data
5	5	5	MgCr2O4	MgCr2O4	MELTS original data
6	6	6	Fe2SiO4	Fe2SiO4	MELTS original data
7	7	7	MnSi0.5O2	MnSi0.5O2	MELTS original data
8	8	8	Mg2SiO4	Mg2SiO4	MELTS original data
9	9	9	NiSi0.5O2	NiSi0.5O2	MELTS original data
10	10	10	CoSi0.5O2	CoSi0.5O2	MELTS original data
11	11	11	CaSiO3	CaSiO3	MELTS original data
12	12	12	Na2SiO3	Na2SiO3	MELTS original data
13	13	13	KAlSiO4	KAlSiO4	MELTS original data
14	14	14	Ca3(PO4)2	Ca3(PO4)2	MELTS original data
15	15	15	H2O	H2O	MELTS original data
16	18		iron-liq	Fe	JANAF G0 data
17	19		nickel-liq	Ni	JANAF G0 data
18	20		silicon-liq	Si	JANAF G0 data
19	21		cobalt-liq	Co	JANAF G0 data
20	22		chromium-liq	Cr	JANAF G0 data
	22	0	IDEAL-Liquid-Metal		JANAF G0 + IDEAL model
21	23	1	iron-IDliq	Fe	JANAF G0 data
22	24	2	nickel-IDliq	Ni	JANAF G0 data
23	25	3	silicon-IDliq	Si	JANAF G0 data
24	26	4	cobalt-IDliq	Co	JANAF G0 data
25	27	5	chromium-IDliq	Cr	JANAF G0 data
	28	0	FeNi-Liquid		JANAF G0 + Chuang et al 86 model
26	29	1	iron-FeNi-liq	Fe	JANAF G0 data
27	30	2	nickel-FeNi-liq	Ni	JANAF G0 data
28	33		iron-FNS-liq	Fe	JANAF G0 data
29	34		nickel-FNS-liq	Ni	JANAF G0 data
30	35		sulfur-FNS-liq	S	DUMMY
	35	0	B83-CMAS-Liquid		Berman 83 PhD model
31	36	1	B83L-CaO	CaO	all Berman 83
32	37	2	B83L-MgO	MgO	all Berman 83
33	38	3	B83L-Al2O3	Al2O3	all Berman 83
34	39	4	B83L-SiO2	SiO2	all Berman 83
35	42		BB84L-CaO	CaO	Berman 83 cp form w/BB84 data
36	43		BB84L-Al2O3	Al2O3	Berman 83 cp form w/BB84 data
37	44		BB84L-SiO2	SiO2	Berman 83 cp form w/BB84 data
	44	0	K97-FeSO-Liq		K97 special
38	45	1	K-FSO-FeLiq	Fe	JANAF G0
39	46	2	K97-FeO1p5L	FeO1.5	K97 special
40	47	3	K97-FeS1p5L	FeS1.5	K97 special
41	49		F2Fe1(l)	F2Fe1	BB85 Cp form: JANAF September 1965
42	50		F2H1K1(l)	F2H1K1	BB85 Cp form: JANAF June 1971
43	52		F2Mg1(l)	F2Mg1	BB85 Cp form: JANAF June 1975
44	56		C1Na2O3(l)	C1Na2O3	BB85 Cp form: JANAF March 1966
************end of list*********

NOTES:

Solid and liquid solutions are listed with the name of the solution phase (e.g.-IDEAL-Fe-alloy), followed by the components of that phase.

In any particular run, some solids or liquids may be suppressed. For example, only the 'best' Fe alloy phase model will be used.

In many runs, specific endmember components are suppressed also. For example, jadeite in pyroxene causes numerical problems, and in the MELTS liquid, the Co, Ni, and Mn components are usually suppressed, since the olivine and spinel models do not yet describe the solid solution behaviour of these these metals.

Data and solid solution model sources:

JANAF (J) tables (Chase et al. 1985)

Knacke et al. (1991)

Pedley and Marshall (1983)

B88: Berman (1988)

B83: Berman (1983 Ph.D.) database and model for CMAS liquids.

B85: Berman and Brown (1985) database.

BB84: Berman and Brown (1984) model for C-A-S system.

Chuang 86, Chang 87 et al.: Chang's group at Wisconsin, models for Fe-Ni-S system and subsystems.

MELTS: Calibration of Ghiorso and Sack (1995).

K97: Kress (1997) work on Fe-S-O system.

RHF79a: Adapted form of Robie-Hemingway-Fisher Cp equation.

R78: Robie et al. (1979) database USGS Bulletin 1452.

Phases added for data comparisons:

HP98test: test values from Holland and Powell, 1998 database for minerals in metamorphic rocks.

B83test: test values from from Berman 1983 thesis.

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Last revised: 26-Jan-2008 (DSE)