niobium

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Properties of substance:

niobium

Group of substances:

inorganic

Physical appearance:

cubic metal

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

Structural formula as text:

Molar/atomic mass: 92.91

Melting point (°C):

2470

Boiling point (°C):

4760

Solubility (g/100 g of solvent):

lithium molten: 0.0008 (700°C) [Ref.]
mercury: insoluble [Ref.]
potassium fused: 0.0001 (700°C) [Ref.]
sodium fused: 0.0035 (700°C) [Ref.]
water: insoluble [Ref.]

Numerical data:

Year of discovery: 1801
Superconducting temperature (K): 9.3

Density:

8.57 (20°C, g/cm³)

Reactions:

[Ref.1]
4Nb + 5O₂ → 2Nb₂O₅

Half-life:

¹⁰⁰₄₁Nb = 1.5 s (β^- (100%))
^100m₄₁Nb = 2.99 s (β^- (100%))
¹⁰⁰ⁿ₄₁Nb = 460 ns (internal transition (100%))
^100p₄₁Nb = 12.43 μs (internal transition (100%))
¹⁰¹₄₁Nb = 7.1 s (β^- (100%))
¹⁰²₄₁Nb = 4.3 s (β^- (100%))
^102m₄₁Nb = 1.3 s (β^- (100%))
¹⁰³₄₁Nb = 1.5 s (β^- (100%))
¹⁰⁴₄₁Nb = 4.9 s (β^- (100%), β^-n (0.06%))
^104m₄₁Nb = 940 ms (β^- (100%), β^-n (0.05%))
¹⁰⁵₄₁Nb = 2.95 s (β^- (100%), β^-n (1.7%))
¹⁰⁶₄₁Nb = 1050 ms (β^- (100%), β^-n (4.5%))
^106m₄₁Nb = 800 ns (internal transition (100%))
¹⁰⁶ⁿ₄₁Nb = 849 ns (internal transition (100%))
¹⁰⁷₄₁Nb = 289 ms (β^- (100%), β^-n (7.4%))
¹⁰⁸₄₁Nb = 198 ms (β^- (100%), β^-n (6.3%))
^108m₄₁Nb = 109 ns (internal transition (100%))
¹⁰⁹₄₁Nb = 106.9 ms (β^- (100%), β^-n (31%))
^109m₄₁Nb = 115 ns (internal transition (100%))
¹¹⁰₄₁Nb = 82 ms (β^- (100%), β^-n (40%), β^-2n)
¹¹¹₄₁Nb = 54 ms (β^- (100%), β^-n. β^-2n)
¹¹²₄₁Nb = 38 ms (β^- (100%), β^-n. β^-2n)
¹¹³₄₁Nb = 32 ms (β^- (100%), β^-n. β^-2n)
¹¹⁴₄₁Nb = 17 ms (β^- (100%), β^-n. β^-2n)
¹¹⁵₄₁Nb = 23 ms (β^- (100%), β^-n. β^-2n)
⁸²₄₁Nb = 50 ms (β⁺ (100%))
^82m₄₁Nb = 92 ns (internal transition (100%))
⁸³₄₁Nb = 3.9 s (β⁺ (100%))
⁸⁴₄₁Nb = 9.8 s (β⁺ (100%))
^84m₄₁Nb = 176 ns (internal transition (100%))
⁸⁴ⁿ₄₁Nb = 92 ns (internal transition (100%))
⁸⁵₄₁Nb = 20.5 s (β⁺ (100%))
^85m₄₁Nb = 3.3 s ()
⁸⁶₄₁Nb = 88 s (β⁺ (100%))
^86m₄₁Nb = 56.3 s (β⁺ (100%))
⁸⁷₄₁Nb = 3.7 min (β⁺ (100%))
^87m₄₁Nb = 2.6 min (β⁺ (100%))
⁸⁸₄₁Nb = 14.50 min (β⁺ (100%))
^88m₄₁Nb = 7.7 min (β⁺ (100%))
⁸⁹₄₁Nb = 2.03 hasа (β⁺ (100%))
^89m₄₁Nb = 1.10 hasа (β⁺ (100%))
⁹⁰₄₁Nb = 14.60 hasа (β⁺ (100%))
^90m₄₁Nb = 63 μs (internal transition (100%))
⁹⁰ⁿ₄₁Nb = 18.81 s (internal transition (100%))
^90p₄₁Nb = < 1 μs (internal transition (100%))
^90q₄₁Nb = 6.19 ms (internal transition (100%))
^90r₄₁Nb = 472 ns (internal transition (100%))
⁹¹₄₁Nb = 680 y (electron capture (about 100%), позитронный распад (0.0138%))
^91m₄₁Nb = 60.86 d (internal transition (96.6%), electron capture (3.4%), позитронный распад (0.0028%))
⁹¹ⁿ₄₁Nb = 3.76 μs (internal transition (100%))
⁹²₄₁Nb = 34 700 000 y (β⁺ (100%))
^92m₄₁Nb = 10.15 d (β⁺ (100%))
⁹²ⁿ₄₁Nb = 5.9 μs (internal transition (100%))
^92p₄₁Nb = 167 ns (internal transition (100%))
⁹³₄₁Nb = stable ( (isotopic abundance 100%))
^93m₄₁Nb = 16.12 y (internal transition (100%))
⁹³ⁿ₄₁Nb = 1.5 μs ()
⁹⁴₄₁Nb = 20 400 y (β^- (100%))
^94m₄₁Nb = 6.263 min (internal transition (99.50%), β^- (0.50%))
⁹⁵₄₁Nb = 34.991 d (β^- (100%))
^95m₄₁Nb = 3.61 d (internal transition (94.4%), β^- (5.6%))
⁹⁶₄₁Nb = 23.35 h (β^- (100%))
⁹⁷₄₁Nb = 72.1 min (β^- (100%))
^97m₄₁Nb = 58.7 s (internal transition (100%))
⁹⁸₄₁Nb = 2.86 s (β^- (100%))
^98m₄₁Nb = 51.3 min (β^- (about 100%))
⁹⁹₄₁Nb = 15.0 s (β^- (100%))
^99m₄₁Nb = 2.5 min ()

Vapour pressure (Torr):

0.1 (2980°C)
1 (3300°C)
10 (3780°C)
100 (4240°C)

Electrode potential:

Nb³⁺ + 3e^- → Nb, E = -1.1 V (water, 25°C)

Standard molar enthalpy (heat) of formation Δ_fH⁰ (298.15 K, kJ/mol):

0 (s)

Standard molar Gibbs energy of formation Δ_fG⁰ (298.15 K, kJ/mol):

0 (s)

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

36.6 (s)

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

24.6 (s)

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

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

662

Standard molar enthalpy (heat) of formation Δ_fH⁰ (298.15 K, kJ/mol):

723 (g)

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

186.2 (g)

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

30.2 (g)

References:

Гибало И.М. Аналитическая химия ниобия и тантала. - М.: Наука, 1967. - pp. 14-15 [Russian]
Гурвич Я.А. Справочник молодого аппаратчика-химика. - М.: Химия, 1991. - pp. 51 [Russian]
Ниобий и тантал. - М.: Металлургия, 1990 [Russian]
Рабинович В.А., Хавин З.Я. Краткий химический справочник. - Л.: Химия, 1977. - pp. 88 [Russian]
Редкие и рассеянные элементы. Химия и технология. - Кн. 2. - М.: Мисис, 1998. - pp. 258-262 [Russian]
Химическая энциклопедия. - Т. 3. - М.: Советская энциклопедия, 1992. - pp. 249-251 [Russian]

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© Collected Ruslan Anatolievich Kiper, burewestnik@mail.ru

Properties of substance:

niobium

Group of substances:

Physical appearance:

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

Structural formula as text:

Molar/atomic mass: 92.91

Melting point (°C):

Boiling point (°C):

Solubility (g/100 g of solvent):

Numerical data:

Density:

Reactions:

Half-life:

Vapour pressure (Torr):

Electrode potential:

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

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

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

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

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

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

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

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

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

References:

Standard molar enthalpy (heat) of formation Δ_fH⁰ (298.15 K, kJ/mol):

Standard molar Gibbs energy of formation Δ_fG⁰ (298.15 K, kJ/mol):

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

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

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

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

Standard molar enthalpy (heat) of formation Δ_fH⁰ (298.15 K, kJ/mol):

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

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