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2Na4[Fe(CN)6] + 2HNO3 → 2NaNO3 + 6NaCN + Fe[Fe(CN)6] + H2↑

2Na₄[Fe(CN)₆] + 2HNO₃ → 2NaNO₃ + 6NaCN + Fe[Fe(CN)₆] + H₂↑

Last updated: May 12, 2022

Reaction of sodium hexacyanidoferrate(II) and nitric acid: 2Na₄[Fe(CN)₆]Sodium hexacyanidoferrate(II) + 2HNO₃Nitric acid
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2NaNO₃Sodium nitrate + 6NaCNSodium cyanide + Fe[Fe(CN)₆]Iron(III) hexacyanidoferrate(III) + H₂↑Hydrogen

The reaction of sodium hexacyanidoferrate(II) and nitric acid yields sodium nitrate, sodium cyanide, iron(III) hexacyanidoferrate(III), and hydrogen (Other reactions are here). This reaction is an oxidation-reduction reaction and is classified as follows:

Reaction of reducing species and oxidizing species

Table of contents

Reaction data

Chemical equation

Reaction of sodium hexacyanidoferrate(II) and nitric acid: 2Na₄[Fe(CN)₆]Sodium hexacyanidoferrate(II) + 2HNO₃Nitric acid
⟶
2NaNO₃Sodium nitrate + 6NaCNSodium cyanide + Fe[Fe(CN)₆]Iron(III) hexacyanidoferrate(III) + H₂↑Hydrogen

General equation

Reaction of reducing species and oxidizing species: Reducing speciesReducing agent + Oxidizing speciesOxidizing agent
⟶
ProductOxidation product + ProductReduction product

Oxidation state of each atom

Reaction of sodium hexacyanidoferrate(II) and nitric acid

Reactants

Chemical formula	Name	Coefficient	Type	Type in general equation
Na₄[Fe(CN)₆]	Sodium hexacyanidoferrate(II)	2	Reducing	Reducing
HNO₃	Nitric acid	2	Oxidizing	Oxidizing

Products

Chemical formula	Name	Coefficient	Type	Type in general equation
NaNO₃	Sodium nitrate	2	–	–
NaCN	Sodium cyanide	6	–	–
Fe[Fe(CN)₆]	Iron(III) hexacyanidoferrate(III)	1	Oxidized	–
H₂	Hydrogen	1	Reduced	–

Thermodynamic changes

Thermodynamic data of reactants

Chemical formula	Standard enthalpy of formation Δ_fH° kJ · mol⁻¹	Standard Gibbs energy of formation Δ_fG° kJ · mol⁻¹	Standard molar entropy S° J · K⁻¹ · mol⁻¹	Standard molar heat capacity at constant pressure C_p° J · K⁻¹ · mol⁻¹
Na₄[Fe(CN)₆] (ai)	-505.0^[1]	-352.53^[1]	331.0^[1]	–
HNO₃ (l)	-174.10^[1]	-80.71^[1]	155.60^[1]	109.87^[1]
HNO₃ (g)	-135.06^[1]	-74.72^[1]	266.38^[1]	53.35^[1]
HNO₃ (ai)	-207.36^[1]	-111.25^[1]	146.4^[1]	-86.6^[1]
HNO₃ (l) 1 hydrate	-473.46^[1]	-328.77^[1]	216.90^[1]	182.46^[1]
HNO₃ (l) 3 hydrate	-1056.04^[1]	-811.09^[1]	346.98^[1]	325.14^[1]

* (ai):Ionized aqueous solution, (l):Liquid, (g):Gas

Thermodynamic data of products

Chemical formula	Standard enthalpy of formation Δ_fH° kJ · mol⁻¹	Standard Gibbs energy of formation Δ_fG° kJ · mol⁻¹	Standard molar entropy S° J · K⁻¹ · mol⁻¹	Standard molar heat capacity at constant pressure C_p° J · K⁻¹ · mol⁻¹
NaNO₃ (cr)	-467.85^[1]	-367.00^[1]	116.52^[1]	92.88^[1]
NaNO₃ (ai)	-447.48^[1]	-373.15^[1]	205.4^[1]	-40.2^[1]
NaCN (cr) cubic	-87.49^[1]	-76.43^[1]	115.60^[1]	70.37^[1]
NaCN (cr) orthorhombic	-90.75^[1]	–	–	–
NaCN (g)	109^[1]	79.94^[1]	249.43^[1]	51.17^[1]
NaCN (ai)	-89.5^[1]	-89.5^[1]	153.1^[1]	–
NaCN (cr) 1/2 hydrate	-235.77^[1]	–	–	–
NaCN (cr) 2 hydrate	-679.77^[1]	–	–	–
Fe[Fe(CN)₆]	–	–	–	–
H₂ (g)	0^[1]	0^[1]	130.684^[1]	28.824^[1]
H₂ (ao)	-4.2^[1]	17.6^[1]	577^[1]	–

* (cr):Crystalline solid, (ai):Ionized aqueous solution, (g):Gas, (ao):Un-ionized aqueous solution

References

List of references

1
Janiel J. Reed (1989)
The NBS Tables of Chemical Thermodynamic Properties: Selected Values for Inorganic and C1 and C2 Organic Substances in SI Units
https://doi.org/10.18434/M32124
National Institute of Standards and Technology (NIST)
Citation list