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Na4[Fe(CN)6] + 17H2O 💧⚡→ 4NaHCO3 + 3N2H4 + FeCO3 + CO2↑ + 9H2↑

Na₄[Fe(CN)₆] + 17H₂O 💧⚡→ 4NaHCO₃ + 3N₂H₄ + FeCO₃ + CO₂↑ + 9H₂↑

Last updated: May 12, 2022

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent: Na₄[Fe(CN)₆]Sodium hexacyanidoferrate(II) + 17H₂OWater
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4NaHCO₃Sodium hydrogencarbonate + 3N₂H₄Hydrazine + FeCO₃Iron(II) carbonate + CO₂↑Carbon dioxide + 9H₂↑Hydrogen

Electrolysis of aqueous sodium hexacyanidoferrate(II) yields sodium hydrogencarbonate, hydrazine, iron(II) carbonate, carbon dioxide, and hydrogen (Other reactions are here). This reaction is an oxidation-reduction reaction and is classified as follows:

Electrolysis of aqueous solution with water as oxidizing agent

Table of contents

Reaction data

Chemical equation

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent: Na₄[Fe(CN)₆]Sodium hexacyanidoferrate(II) + 17H₂OWater
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4NaHCO₃Sodium hydrogencarbonate + 3N₂H₄Hydrazine + FeCO₃Iron(II) carbonate + CO₂↑Carbon dioxide + 9H₂↑Hydrogen

General equation

Electrolysis of aqueous solution with water as oxidizing agent: Miscible with water/Very soluble in water/Soluble in waterReducing agent + H₂OOxidizing agent
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ProductOxidation product + ProductReduction product

Oxidation state of each atom

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent

Reactants

Chemical formula	Name	Coefficient	Type	Type in general equation
Na₄[Fe(CN)₆]	Sodium hexacyanidoferrate(II)	1	Reducing	Soluble in water
H₂O	Water	17	Oxidizing	Water

Products

Chemical formula	Name	Coefficient	Type	Type in general equation
NaHCO₃	Sodium hydrogencarbonate	4	Oxidized	–
N₂H₄	Hydrazine	3	Oxidized	–
FeCO₃	Iron(II) carbonate	1	Oxidized	–
CO₂	Carbon dioxide	1	Oxidized	–
H₂	Hydrogen	9	Reduced	–

Thermodynamic changes

Changes in aqueous solution (1)

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent ◆ Δ_rG 312.4 kJ/mol K 0.19 × 10⁻⁵⁴ pK 54.73: Na₄[Fe(CN)₆]Ionized aqueous solution + 17H₂OLiquid
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4NaHCO₃Ionized aqueous solution + 3N₂H₄Un-ionized aqueous solution + FeCO₃Crystalline solidsiderite + CO₂↑Gas + 9H₂↑Gas

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	604.5	312.4	978	–
per 1 mol of Sodium hexacyanidoferrate(II)	604.5	312.4	978	–
per 1 mol of Water	35.56	18.38	57.5	–
per 1 mol of Sodium hydrogencarbonate	151.1	78.10	245	–
per 1 mol of Hydrazine	201.5	104.1	326	–
per 1 mol of Iron(II) carbonate	604.5	312.4	978	–
per 1 mol of Carbon dioxide	604.5	312.4	978	–
per 1 mol of Hydrogen	67.17	34.71	109	–

Changes in aqueous solution (2)

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent ◆ Δ_rG 470.8 kJ/mol K 0.33 × 10⁻⁸² pK 82.48: Na₄[Fe(CN)₆]Ionized aqueous solution + 17H₂OLiquid
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4NaHCO₃Ionized aqueous solution + 3N₂H₄Un-ionized aqueous solution + FeCO₃Crystalline solidsiderite + CO₂↑Gas + 9H₂↑Un-ionized aqueous solution

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	566.7	470.8	4995	–
per 1 mol of Sodium hexacyanidoferrate(II)	566.7	470.8	4995	–
per 1 mol of Water	33.34	27.69	293.8	–
per 1 mol of Sodium hydrogencarbonate	141.7	117.7	1249	–
per 1 mol of Hydrazine	188.9	156.9	1665	–
per 1 mol of Iron(II) carbonate	566.7	470.8	4995	–
per 1 mol of Carbon dioxide	566.7	470.8	4995	–
per 1 mol of Hydrogen	62.97	52.31	555.0	–

Changes in aqueous solution (3)

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent ◆ Δ_rG 320.7 kJ/mol K 0.65 × 10⁻⁵⁶ pK 56.18: Na₄[Fe(CN)₆]Ionized aqueous solution + 17H₂OLiquid
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4NaHCO₃Ionized aqueous solution + 3N₂H₄Un-ionized aqueous solution + FeCO₃Crystalline solidsiderite + CO₂↑Un-ionized aqueous solution + 9H₂↑Gas

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	584.2	320.7	882	–
per 1 mol of Sodium hexacyanidoferrate(II)	584.2	320.7	882	–
per 1 mol of Water	34.36	18.86	51.9	–
per 1 mol of Sodium hydrogencarbonate	146.1	80.17	221	–
per 1 mol of Hydrazine	194.7	106.9	294	–
per 1 mol of Iron(II) carbonate	584.2	320.7	882	–
per 1 mol of Carbon dioxide	584.2	320.7	882	–
per 1 mol of Hydrogen	64.91	35.63	98.0	–

Changes in aqueous solution (4)

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent ◆ Δ_rG 479.1 kJ/mol K 0.12 × 10⁻⁸³ pK 83.93: Na₄[Fe(CN)₆]Ionized aqueous solution + 17H₂OLiquid
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4NaHCO₃Ionized aqueous solution + 3N₂H₄Un-ionized aqueous solution + FeCO₃Crystalline solidsiderite + CO₂↑Un-ionized aqueous solution + 9H₂↑Un-ionized aqueous solution

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	546.4	479.1	4899	–
per 1 mol of Sodium hexacyanidoferrate(II)	546.4	479.1	4899	–
per 1 mol of Water	32.14	28.18	288.2	–
per 1 mol of Sodium hydrogencarbonate	136.6	119.8	1225	–
per 1 mol of Hydrazine	182.1	159.7	1633	–
per 1 mol of Iron(II) carbonate	546.4	479.1	4899	–
per 1 mol of Carbon dioxide	546.4	479.1	4899	–
per 1 mol of Hydrogen	60.71	53.23	544.3	–

Changes in aqueous solution (5)

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent ◆ Δ_rG 308.2 kJ/mol K 0.10 × 10⁻⁵³ pK 53.99: Na₄[Fe(CN)₆]Ionized aqueous solution + 17H₂OLiquid
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4NaHCO₃Un-ionized aqueous solution + 3N₂H₄Un-ionized aqueous solution + FeCO₃Crystalline solidsiderite + CO₂↑Gas + 9H₂↑Gas

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	557.4	308.2	833	–
per 1 mol of Sodium hexacyanidoferrate(II)	557.4	308.2	833	–
per 1 mol of Water	32.79	18.13	49.0	–
per 1 mol of Sodium hydrogencarbonate	139.3	77.05	208	–
per 1 mol of Hydrazine	185.8	102.7	278	–
per 1 mol of Iron(II) carbonate	557.4	308.2	833	–
per 1 mol of Carbon dioxide	557.4	308.2	833	–
per 1 mol of Hydrogen	61.93	34.24	92.6	–

Changes in aqueous solution (6)

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent ◆ Δ_rG 466.6 kJ/mol K 0.18 × 10⁻⁸¹ pK 81.74: Na₄[Fe(CN)₆]Ionized aqueous solution + 17H₂OLiquid
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4NaHCO₃Un-ionized aqueous solution + 3N₂H₄Un-ionized aqueous solution + FeCO₃Crystalline solidsiderite + CO₂↑Gas + 9H₂↑Un-ionized aqueous solution

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	519.6	466.6	4849	–
per 1 mol of Sodium hexacyanidoferrate(II)	519.6	466.6	4849	–
per 1 mol of Water	30.56	27.45	285.2	–
per 1 mol of Sodium hydrogencarbonate	129.9	116.7	1212	–
per 1 mol of Hydrazine	173.2	155.5	1616	–
per 1 mol of Iron(II) carbonate	519.6	466.6	4849	–
per 1 mol of Carbon dioxide	519.6	466.6	4849	–
per 1 mol of Hydrogen	57.73	51.84	538.8	–

Changes in aqueous solution (7)

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent ◆ Δ_rG 316.6 kJ/mol K 0.34 × 10⁻⁵⁵ pK 55.47: Na₄[Fe(CN)₆]Ionized aqueous solution + 17H₂OLiquid
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4NaHCO₃Un-ionized aqueous solution + 3N₂H₄Un-ionized aqueous solution + FeCO₃Crystalline solidsiderite + CO₂↑Un-ionized aqueous solution + 9H₂↑Gas

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	537.1	316.6	736	–
per 1 mol of Sodium hexacyanidoferrate(II)	537.1	316.6	736	–
per 1 mol of Water	31.59	18.62	43.3	–
per 1 mol of Sodium hydrogencarbonate	134.3	79.15	184	–
per 1 mol of Hydrazine	179.0	105.5	245	–
per 1 mol of Iron(II) carbonate	537.1	316.6	736	–
per 1 mol of Carbon dioxide	537.1	316.6	736	–
per 1 mol of Hydrogen	59.68	35.18	81.8	–

Changes in aqueous solution (8)

Electrolysis of aqueous sodium hexacyanidoferrate(II) with water as oxidizing agent ◆ Δ_rG 475.0 kJ/mol K 0.61 × 10⁻⁸³ pK 83.22: Na₄[Fe(CN)₆]Ionized aqueous solution + 17H₂OLiquid
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4NaHCO₃Un-ionized aqueous solution + 3N₂H₄Un-ionized aqueous solution + FeCO₃Crystalline solidsiderite + CO₂↑Un-ionized aqueous solution + 9H₂↑Un-ionized aqueous solution

	Standard enthalpy of reaction Δ_rH° kJ · mol⁻¹	Standard Gibbs energy of reaction Δ_rG° kJ · mol⁻¹	Standard entropy of reaction Δ_rS° J · K⁻¹ · mol⁻¹	Standard heat capacity of reaction at constant pressure Δ_rC_p° J · K⁻¹ · mol⁻¹
per 1 mol of Equation	499.3	475.0	4753	–
per 1 mol of Sodium hexacyanidoferrate(II)	499.3	475.0	4753	–
per 1 mol of Water	29.37	27.94	279.6	–
per 1 mol of Sodium hydrogencarbonate	124.8	118.8	1188	–
per 1 mol of Hydrazine	166.4	158.3	1584	–
per 1 mol of Iron(II) carbonate	499.3	475.0	4753	–
per 1 mol of Carbon dioxide	499.3	475.0	4753	–
per 1 mol of Hydrogen	55.48	52.78	528.1	–

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]	–
H₂O (cr)	–	–	–	–
H₂O (l)	-285.830^[1]	-237.129^[1]	69.91^[1]	75.291^[1]
H₂O (g)	-241.818^[1]	-228.572^[1]	188.825^[1]	33.577^[1]

* (ai):Ionized aqueous solution, (cr):Crystalline solid, (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
NaHCO₃ (cr)	-950.81^[1]	-851.0^[1]	101.7^[1]	87.61^[1]
NaHCO₃ (ai)	-932.11^[1]	-848.66^[1]	150.2^[1]	–
NaHCO₃ (ao)	-943.9^[1]	-849.7^[1]	113.8^[1]	–
N₂H₄ (l)	50.63^[1]	149.34^[1]	121.21^[1]	98.87^[1]
N₂H₄ (g)	95.40^[1]	159.35^[1]	238.47^[1]	49.58^[1]
N₂H₄ (ao)	34.31^[1]	128.1^[1]	138^[1]	–
FeCO₃ (cr) siderite	-740.57^[1]	-666.67^[1]	92.9^[1]	82.13^[1]
CO₂ (g)	-393.509^[1]	-394.359^[1]	213.74^[1]	37.11^[1]
CO₂ (ao)	-413.80^[1]	-385.98^[1]	117.6^[1]	–
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, (ao):Un-ionized aqueous solution, (l):Liquid, (g):Gas

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