Difference between revisions of "Sodium hydrazide"

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'''Sodium hydrazide''' is an organic chemical compound, a yellow crystalline compound that is known to explode violently in contact with air. It has the chemical formula '''NaN<sub>2</sub>H<sub>3</sub>'''.
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'''Sodium hydrazide''' is an organic chemical compound, a colorless or yellow crystalline compound that is known to explode violently in contact with air. It has the chemical formula '''NaN<sub>2</sub>H<sub>3</sub>'''.
  
 
==Properties==
 
==Properties==
 
===Chemical===
 
===Chemical===
Sodium hydrazide explodes on contact with air or when heated at high temperatures.<ref>Gmelins Handbuch der anorganischen Chemie, Natrium, Berlin, Verlag Chemie GmbH, 8th edition 1928, p. 260-261</ref> It also reacts with water violently, yielding [[sodium hydroxide]] and [[hydrazine]].<ref>Kauffmann, T.; Kosel, C.; Wolf, D.; Chemische Berichte; vol. 95; (1962); p. 1540 - 1551</ref>
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Sodium hydrazide explodes on contact with air or when heated at high temperatures.<ref name="gmelinna">''Gmelins Handbuch der anorganischen Chemie, Natrium'', Berlin, Verlag Chemie GmbH, 8th edition '''1928''', p. 260-261</ref> It also reacts with water violently, yielding [[sodium hydroxide]] and [[hydrazine]].<ref>Kauffmann, T.; Kosel, C.; Wolf, D.; Chemische Berichte; vol. 95; (1962); p. 1540 - 1551</ref>
  
 
: NaNH-NH<sub>2</sub> + H<sub>2</sub>O → NaOH + NH<sub>2</sub>-NH<sub>2</sub>
 
: NaNH-NH<sub>2</sub> + H<sub>2</sub>O → NaOH + NH<sub>2</sub>-NH<sub>2</sub>
 +
 +
Moisture and alcohol are also reported to result in explosion.<ref name="gmelinna" />
  
 
Sodium hydrazide does not attack compounds containing isolated double bonds, apart from those in which the bond angle is strained. On the other hand, it adds onto C=C double bonds that are conjugated with a phenyl residue or another C=C double bond. [[Styrene]], for example, adds on sodium hydrazide in ether very rapidly, even at 0 °C.<ref>[https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.196403421 Angew. Chem. internat. Edit, Vol. 3 (1964) I No. 5, p. 342-353]</ref>
 
Sodium hydrazide does not attack compounds containing isolated double bonds, apart from those in which the bond angle is strained. On the other hand, it adds onto C=C double bonds that are conjugated with a phenyl residue or another C=C double bond. [[Styrene]], for example, adds on sodium hydrazide in ether very rapidly, even at 0 °C.<ref>[https://onlinelibrary.wiley.com/doi/abs/10.1002/anie.196403421 Angew. Chem. internat. Edit, Vol. 3 (1964) I No. 5, p. 342-353]</ref>
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===Physical===
 
===Physical===
Sodium hydrazide is a yellowish crystalline compound, very soluble in anh. hydrazine<ref>Некрасов Б.В. Основы общей химии. - Т.1. - М.: Химия, 1973 (Nekrasov B.V. Fundamentals of General Chemistry. - T.1. - M.: Chemistry, 1973)</ref> insoluble in organic solvents, but reacts with water and acids,. It is known to react explosively in open air, or when heated at high temperatures.
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Sodium hydrazide is a white to yellowish crystalline compound, very soluble in anh. hydrazine<ref>Некрасов Б.В. Основы общей химии. - Т.1. - М.: Химия, 1973 (Nekrasov B.V. Fundamentals of General Chemistry. - T.1. - M.: Chemistry, 1973)</ref> insoluble in organic solvents, but reacts (potentially explosively) with water and acids. It is known to react explosively in open air, or when heated at high temperatures.
  
 
===Explosive===
 
===Explosive===
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==Preparation==
 
==Preparation==
Sodium hydrazide can be prepared by reacting finely divided [[sodium amide]] with anhydrous [[hydrazine]], under inert atmosphere. If the sodium amide is not finely divided, the reaction is very slow.<ref name="Welsh"/>
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Sodium hydrazide can be prepared by reacting finely divided [[sodium amide]] or [[sodium hydride]] with anhydrous [[hydrazine]], under inert atmosphere. If the sodium amide is not finely divided, the reaction is very slow.<ref name="Welsh"/>
  
 
: NaR + H<sub>2</sub>N-NH<sub>2</sub> → NaNH-NH<sub>2</sub> + R-H (R = NH<sub>2</sub> or H)
 
: NaR + H<sub>2</sub>N-NH<sub>2</sub> → NaNH-NH<sub>2</sub> + R-H (R = NH<sub>2</sub> or H)
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Another way is the reaction of sodium metal with absolutely anhydrous hydrazine with benzene layered on top of it:<ref name="schlenk">W. Schlenk, T. Weichselfelder, ''Ber. Dtsch. Chem. Ges.'' '''1915''', 48, 669-676. [https://doi.org/10.1002/cber.19150480190 https://doi.org/10.1002/cber.19150480190]</ref>
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:2 Na + 3 N<sub>2</sub>H<sub>4</sub> → 2 NaNHNH<sub>2</sub> + 2 NH<sub>3</sub>
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 +
On very careful distillation (removing benzene and excess hydrazine) using a water bath at no more than 70 °C, very pure sodium hydrazide is left behind.<ref name="schlenk" />
  
 
==Projects==
 
==Projects==
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===Disposal===
 
===Disposal===
Can neutralized by reacting it with esters or alcohols, under inert gas.
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There are several way to safely dispose of this compound: One involves slow addition of organic esters or long-chain alcohols, which are diluted in an inert solvent (like ether), under inert gas and diluted in another solvent, until the compound is neutralized completely. Another involves the addition of a nitrile compound, like acetonitrile, followed by the careful addition of water, which converts it to non-explosive amidrazones. A third method involves very slow decomposition under benzene using a dilute solution of alcohol in benzene has been used to decompose the substance without explosion. Afterwards (!) the solution can be neutralized with dilute aq. acids.<ref name="schlenk" />
  
 
==References==
 
==References==

Latest revision as of 14:42, 16 August 2023

Sodium hydrazide
Names
IUPAC name
Sodium hydrazide
Other names
Sodium aminoazanide
Properties
NaN2H3
NaNH-NH2
Molar mass 54.027 g/mol
Appearance White to yellow crystalline solid
Odor Odorless
Melting point 100 °C (212 °F; 373 K) (Decomposes)
Boiling point Decomposes
Reacts
Solubility Reacts with alcohols, acids[1]
Soluble in anh. ammonia, hydrazine
Insoluble in ethers, hydrocarbons
Vapor pressure ~0 mmHg
Hazards
Safety data sheet None
Related compounds
Related compounds
Hydrazine
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
Infobox references

Sodium hydrazide is an organic chemical compound, a colorless or yellow crystalline compound that is known to explode violently in contact with air. It has the chemical formula NaN2H3.

Properties

Chemical

Sodium hydrazide explodes on contact with air or when heated at high temperatures.[2] It also reacts with water violently, yielding sodium hydroxide and hydrazine.[3]

NaNH-NH2 + H2O → NaOH + NH2-NH2

Moisture and alcohol are also reported to result in explosion.[2]

Sodium hydrazide does not attack compounds containing isolated double bonds, apart from those in which the bond angle is strained. On the other hand, it adds onto C=C double bonds that are conjugated with a phenyl residue or another C=C double bond. Styrene, for example, adds on sodium hydrazide in ether very rapidly, even at 0 °C.[4]

Sodium hydrazide reacts with nitriles, followed by water, at low temperatures to yield amidrazones.[5]

Pyridine can be converted directly into 2-hydrazinopyridine by treatment with sodium hydrazide/hydrazine and subsequent hydrolysis with water.[6] If no free hydrazine is present, the reaction of sodium hydrazide with aromatic nitrogenous heterocycles like pyridine produces hydrazo compounds.[7]

Aliphatic ethers are unaffected by sodium hydrazide at 60 °C. Ethers with one or two aromatic residues are also fairly resistant: when heated at 50 °C for five hours with sodium hydrazide in benzene containing free hydrazine, anisole and diphenyl ether are split to the extent of only 9 and 21 %, respectively.

Physical

Sodium hydrazide is a white to yellowish crystalline compound, very soluble in anh. hydrazine[8] insoluble in organic solvents, but reacts (potentially explosively) with water and acids. It is known to react explosively in open air, or when heated at high temperatures.

Explosive

Sodium hydrazide is known to explode violently on contact with oxygen, such as atmospheric air, and also when heated above 100 °C. While most sources indicate that it is stable in an oxygen-free atmosphere, some sources claim it can be explosive even under nitrogen or hydrogen atmosphere, but no indications why.[9][10]

Availability

Sodium hydrazide is not sold by suppliers and has to be made in situ.

Preparation

Sodium hydrazide can be prepared by reacting finely divided sodium amide or sodium hydride with anhydrous hydrazine, under inert atmosphere. If the sodium amide is not finely divided, the reaction is very slow.[9]

NaR + H2N-NH2 → NaNH-NH2 + R-H (R = NH2 or H)

Another way is the reaction of sodium metal with absolutely anhydrous hydrazine with benzene layered on top of it:[11]

2 Na + 3 N2H4 → 2 NaNHNH2 + 2 NH3

On very careful distillation (removing benzene and excess hydrazine) using a water bath at no more than 70 °C, very pure sodium hydrazide is left behind.[11]

Projects

  • Pyrotechnic demonstration
  • Prepare amidrazones

Handling

Safety

Sodium hydrazide is explosive in contact with air and poses a serious fire hazard.

Storage

Should not be stored and used immediately.

Disposal

There are several way to safely dispose of this compound: One involves slow addition of organic esters or long-chain alcohols, which are diluted in an inert solvent (like ether), under inert gas and diluted in another solvent, until the compound is neutralized completely. Another involves the addition of a nitrile compound, like acetonitrile, followed by the careful addition of water, which converts it to non-explosive amidrazones. A third method involves very slow decomposition under benzene using a dilute solution of alcohol in benzene has been used to decompose the substance without explosion. Afterwards (!) the solution can be neutralized with dilute aq. acids.[11]

References

  1. Comey A. M., Hahn D. A. A dictionary of Chemical Solubilities Inorganic. - 2 ed. - New York, The MacMillan Company, 1921 pp. 851
  2. 2.0 2.1 Gmelins Handbuch der anorganischen Chemie, Natrium, Berlin, Verlag Chemie GmbH, 8th edition 1928, p. 260-261
  3. Kauffmann, T.; Kosel, C.; Wolf, D.; Chemische Berichte; vol. 95; (1962); p. 1540 - 1551
  4. Angew. Chem. internat. Edit, Vol. 3 (1964) I No. 5, p. 342-353
  5. Th. Kauffmann, S. Spaude, and D. Wulf, Angew. Chem. 75, 344 (1963); Angew. Chem. internat. Edit. 2, 217 (1963)
  6. Th. Kauffmann, J. Hansen, Ch. Kosel, and W. Schoeneck, Liebigs, Ann. Chem. 656, 103 (1962)
  7. Th. Kauffmann, If. Hacker, and Ch. Kosel, Z. Naturforsch. 14h, 602 (1959)
  8. Некрасов Б.В. Основы общей химии. - Т.1. - М.: Химия, 1973 (Nekrasov B.V. Fundamentals of General Chemistry. - T.1. - M.: Chemistry, 1973)
  9. 9.0 9.1 T. W. B. Welsh, J. Amer. chem. Soc. 37, 497 (1915)
  10. https://onlinelibrary.wiley.com/doi/abs/10.1002/047084289X.rs072
  11. 11.0 11.1 11.2 W. Schlenk, T. Weichselfelder, Ber. Dtsch. Chem. Ges. 1915, 48, 669-676. https://doi.org/10.1002/cber.19150480190

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