Main page (Russian)
Search in database (English)
Properties of substance:
ruthenium
Group of substances:
inorganic
Physical appearance:
hexagonal metal
Empirical formula (Hill's system for organic substances):
Ru
Structural formula as text:
Ru
Molar/atomic mass: 101.07
Melting point (°C):
2250
Boiling point (°C):
4200
Solubility (g/100 g of solvent):
diethyl ether
: insoluble [
Ref.
]
ethanol
: insoluble [
Ref.
]
mercury
: insoluble [
Ref.
]
water
: insoluble [
Ref.
]
Numerical data:
Year of discovery: 1843
Superconducting temperature (K): 0.493
Density:
12.4 (20°C, g/cm
3
)
Half-life:
100
44
Ru = stable ( (isotopic abundance 12,6%))
101
44
Ru = stable ( (isotopic abundance 17,06%))
101m
44
Ru = 17.5 μs (internal transition (100%))
102
44
Ru = stable ( (isotopic abundance 31,55%))
103
44
Ru = 39.247 d (β
-
(100%))
103m
44
Ru = 1.69 ms (internal transition (100%))
104
44
Ru = stable ( (isotopic abundance 18,62%))
105
44
Ru = 4.44 h (β
-
(100%))
105m
44
Ru = 340 ns (internal transition (100%))
106
44
Ru = 371.8 d (β
-
(100%))
107
44
Ru = 3.75 min (β
-
(100%))
108
44
Ru = 4.55 min (β
-
(100%))
109
44
Ru = 34.5 s (β
-
(100%))
109m
44
Ru = 680 ns (internal transition (100%))
110
44
Ru = 12.04 s (β
-
(100%))
111
44
Ru = 2.12 s (β
-
(100%))
112
44
Ru = 1.75 s (β
-
(100%))
113
44
Ru = 800 ms (β
-
(100%))
113m
44
Ru = 510 ms ()
114
44
Ru = 540 ms (β
-
(100%))
115
44
Ru = 318 ms (β
-
(100%))
116
44
Ru = 204 ms (β
-
(100%))
117
44
Ru = 151 ms (β
-
(100%))
117m
44
Ru = 2.49 μs (internal transition (100%))
118
44
Ru = 99 ms (β
-
(100%))
119
44
Ru = 69.5 ms (β
-
(100%))
120
44
Ru = 45 ms (β
-
(100%))
121
44
Ru = 29 ms (β
-
(100%))
122
44
Ru = 25 ms (β
-
(100%), β
-
n)
123
44
Ru = 19 ms (β
-
(100%), β
-
n)
124
44
Ru = 15 ms (β
-
(100%), β
-
n)
88
44
Ru = 1.3 s (β
+
(100%))
89
44
Ru = 1.5 s (β
+
(100%), β
+
p (3.1%))
90
44
Ru = 11 s (β
+
(100%))
91
44
Ru = 8.0 s (β
+
(100%))
91m
44
Ru = 7.6 s (β
+
(100%))
92
44
Ru = 3.65 min (β
+
(100%))
93
44
Ru = 59.7 s (β
+
(100%))
93m
44
Ru = 10.8 s (β
+
(78.0%), internal transition (22.0%), β
+
p (0.027%))
93n
44
Ru = 2.49 μs (internal transition (100%))
94
44
Ru = 51.8 min (β
+
(100%))
94m
44
Ru = 71 μs (internal transition (100%))
95
44
Ru = 1.643 h (β
+
(100%))
96
44
Ru = stable ( (isotopic abundance 5,54%))
97
44
Ru = 2.8370 d (β
+
(100%))
98
44
Ru = stable ( (isotopic abundance 1,87%))
99
44
Ru = stable ( (isotopic abundance 12,76%))
Vapour pressure (Torr):
0.1 (2655°C)
1 (2940°C)
10 (3290°C)
100 (3730°C)
Standard molar enthalpy (heat) of formation Δ
f
H
0
(298.15 K, kJ/mol):
0 (s)
Standard molar Gibbs energy of formation Δ
f
G
0
(298.15 K, kJ/mol):
0 (s)
Standard molar entropy S
0
(298.15 K, J/(mol·K)):
28.5 (s)
Molar heat capacity at constant pressure C
p
(298.15 K, J/(mol·K)):
24.1 (s)
Molar enthalpy (heat) of fusion Δ
fus
H (kJ/mol):
24
Enthalpy (heat) of vaporization Δ
vap
H (kJ/mol):
602
References:
Автократова Т.Д. Аналитическая химия рутения. - М.: ИАН СССР, 1962. - pp. 9-10 [Russian]
Гурвич Я.А. Справочник молодого аппаратчика-химика. - М.: Химия, 1991. - pp. 51 [Russian]
Звягинцев О.Е., Колбин Н.И., Рябов А.Н., Автократова Т.Д., Горюнов А.А. Химия рутения. - М.: Наука, 1965 [Russian]
Рабинович В.А., Хавин З.Я. Краткий химический справочник. - Л.: Химия, 1977. - pp. 94 [Russian]
What information do you need?
© Collected Ruslan Anatolievich Kiper, burewestnik@mail.ru