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Properties of substance:

tin white

Group of substances:

inorganic

Physical appearance:

white tetragonal metal

Empirical formula (Hill's system for organic substances):

Sn

Structural formula as text:

Sn

Molar/atomic mass: 118.69

Melting point (°C):

231.9

Boiling point (°C):

2620

Solubility (g/100 g of solvent):

hydrazine: insoluble [Ref.]
mercury: 0.62 (18°C) [Ref.]

Numerical data:

Superconducting temperature (K): 3.722

Density:

7.29 (20°C, g/cm3)
6.98 (232°C, d4)

Half-life:

10050Sn = 1.1 s (β+ (100%))
10150Sn = 3 s (β+ (100%))
10250Sn = 4.6 s (β+ (100%))
102m50Sn = 720 ns (internal transition (100%))
10350Sn = 7 s (β+ (100%))
10450Sn = 20.8 s (β+ (100%))
10550Sn = 34 s (β+ (100%))
10650Sn = 1.92 min (β+ (100%))
10750Sn = 2.90 min (β+ (100%))
10850Sn = 10.30 min (β+ (100%))
10950Sn = 18.0 min (β+ (100%))
11050Sn = 4.11 hasа (electron capture (100%))
11150Sn = 35.3 min (β+ (100%))
111m50Sn = 12.5 μs ()
11250Sn = stable ( (isotopic abundance 0,97%))
11350Sn = 115.09 d (β+ (100%))
113m50Sn = 21.4 min (internal transition (91.1%), β+ (8.9%))
11450Sn = stable ( (isotopic abundance 0,66%))
114m50Sn = 733 ns (internal transition (100%))
11550Sn = stable ( (isotopic abundance 0,34%))
115m50Sn = 3.26 μs (internal transition (100%))
115n50Sn = 159 μs (internal transition (100%))
11650Sn = stable ( (isotopic abundance 14,54%))
11750Sn = stable ( (isotopic abundance 7,68%))
117m50Sn = 13.76 d (internal transition (100%))
11850Sn = stable ( (isotopic abundance 24,22%))
11950Sn = stable ( (isotopic abundance 8,59%))
119m50Sn = 293.1 d (internal transition (100%))
12050Sn = stable ( (isotopic abundance 32,58%))
120m50Sn = 11.8 μs (internal transition (100%))
120n50Sn = 6.26 μs (internal transition (100%))
12150Sn = 27.03 h (β- (100%))
121m50Sn = 43.9 y (internal transition (77.6%), β- (22.4%))
121n50Sn = 5.3 μs (internal transition (100%))
12250Sn = stable ( (isotopic abundance 4,63%))
12350Sn = 129.2 d (β- (100%))
123m50Sn = 40.06 min (β- (100%))
12450Sn = stable ( (isotopic abundance 5,79%))
124m50Sn = 3.1 μs (internal transition (100%))
124n50Sn = 45 μs (internal transition (100%))
12550Sn = 9.64 d (β- (100%))
125m50Sn = 9.52 min (β- (100%))
12650Sn = 230 000 y (β- (100%))
126m50Sn = 6.6 μs (internal transition (100%))
126n50Sn = 7.7 μs (internal transition (100%))
12750Sn = 2.10 h (β- (100%))
127m50Sn = 4.13 min (β- (100%))
12850Sn = 59.07 min (β- (100%))
128m50Sn = 6.5 s (internal transition (100%))
12950Sn = 2.23 min (β- (100%))
129m50Sn = 6.9 min (β- (about 100%), internal transition (0.002%))
13050Sn = 3.72 min (β- (100%))
130m50Sn = 1.7 min (β- (100%))
13150Sn = 56 s (β- (100%))
131m50Sn = 58.4 s (β- (100%))
13250Sn = 39.7 s (β- (100%))
13350Sn = 1.45 s (β- (100%), β-n (0.0294%))
13450Sn = 1.12 s (β- (100%), β-n (17%))
13550Sn = 530 ms (β- (100%), β-n (21%))
13650Sn = 250 ms (β- (100%), β-n (30%))
13750Sn = 190 ms (β- (100%), β-n (58%))
13850Sn = 148 ms (β- (100%), β-n (36%))
13950Sn = 120 ms (β- (100%), β-n (?%))
9950Sn = 24 ms (β+ (100%), β+p (5.3%))

Electrode potential:

Sn2+ + 2e- → Sn, E = -0.136 V (water, 25°C)
Sn4+ + 2e- → Sn2+, E = 0.151 V (water, 25°C)
Sn4+ + e- → Sn3+, E = 0.7 V (water, 25°C)

Standard molar enthalpy (heat) of formation ΔfH0 (298.15 K, kJ/mol):

0 (s)

Standard molar Gibbs energy of formation ΔfG0 (298.15 K, kJ/mol):

0 (s)

Standard molar entropy S0 (298.15 K, J/(mol·K)):

51.55 (s)

Molar heat capacity at constant pressure Cp (298.15 K, J/(mol·K)):

26 (s)

Molar enthalpy (heat) of fusion ΔfusH (kJ/mol):

7.2

Enthalpy (heat) of vaporization ΔvapH (kJ/mol):

296.1

Standard molar enthalpy (heat) of formation ΔfH0 (298.15 K, kJ/mol):

302 (g)

Standard molar entropy S0 (298.15 K, J/(mol·K)):

168.4 (g)

Molar heat capacity at constant pressure Cp (298.15 K, J/(mol·K)):

21.3 (g)

References:

  1. Dean J.A. Lange's handbook of chemistry. - 1999. - pp. 3.56
  2. Гринвуд Н., Эрншо А. Химия элементов. - Т.1. - М.: БИНОМ. Лаборатория знаний, 2008. - pp. 349, 351 [Russian]
  3. Гурвич Я.А. Справочник молодого аппаратчика-химика. - М.: Химия, 1991. - pp. 51 [Russian]
  4. Методы элементоорганической химии: Германий, олово, свинец. - М.: Наука, 1968. - pp. 183 [Russian]
  5. Неорганические синтезы. - Сб. 1. - М.: ИИЛ, 1951. - pp. 10 [Russian]
  6. Рабинович В.А., Хавин З.Я. Краткий химический справочник. - Л.: Химия, 1977. - pp. 88 [Russian]
  7. Реми Г. Курс неорганической химии. - Т.1. - М., 1963. - pp. 570-573 [Russian]
  8. Спиваковский В.Б. Аналитическая химия олова. - М.: Наука, 1975. - pp. 9-12 [Russian]
  9. Справочник по растворимости. - Т.1, Кн.1. - М.-Л.: ИАН СССР, 1961. - pp. 596 [Russian]
  10. Успехи химии. - 1997. - Т.66, №2. - pp. 112 [Russian]
  11. Химическая энциклопедия. - Т. 3. - М.: Советская энциклопедия, 1992. - pp. 382-384 [Russian]
  12. Энциклопедия для детей. - Т.17: Химия. - М.: Аванта+, 2004. - pp. 216 [Russian]

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    © Collected Ruslan Anatolievich Kiper, burewestnik@mail.ru