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Bromine azide

Base Information
  • Chemical Name:Bromine azide
  • CAS No.:13973-87-0
  • Molecular Formula:BrN3
  • Molecular Weight:121.924
  • Hs Code.:
  • DSSTox Substance ID:DTXSID50161155
  • Wikipedia:Bromine_azide
  • Wikidata:Q4973651
  • Mol file:13973-87-0.mol
Bromine azide

Synonyms:Bromine azide;Bromine azide (Br(N3));Bromine nitride;13973-87-0;Nitrogen bromide (N3Br);BrN3;Bromine azide [Forbidden];bromoazide;DTXSID50161155;Q4973651

Suppliers and Price of Bromine azide
Supply Marketing:
Business phase:
The product has achieved commercial mass production*data from LookChem market partment
Manufacturers and distributors:
  • Manufacture/Brand
  • Chemicals and raw materials
  • Packaging
  • price
Total 5 raw suppliers
Chemical Property of Bromine azide
Chemical Property:
  • Melting Point:~45℃ [HAW93] 
  • Boiling Point:°Cat760mmHg 
  • Flash Point:°C 
  • PSA:16.72000 
  • Density:g/cm3 
  • LogP:1.60660 
  • XLogP3:2.3
  • Hydrogen Bond Donor Count:0
  • Hydrogen Bond Acceptor Count:2
  • Rotatable Bond Count:0
  • Exact Mass:120.92756
  • Heavy Atom Count:4
  • Complexity:41.2
Purity/Quality:

99% *data from raw suppliers

Safty Information:
  • Pictogram(s): Explosive when heated or shocked. Will ignite combustible materials on contact. 
  • Hazard Codes:Explosive when heated or shocked. Will ignite combustible materials on contact. 
MSDS Files:

SDS file from LookChem

Useful:
  • Canonical SMILES:[N-]=[N+]=NBr
  • Uses Bromine azide (BrN3) is a strong oxidizing agent that will explode when shocked or heated. It is used to make detonators for dynamite and other explosives. Detonators and other explosive devices.
Technology Process of Bromine azide

There total 4 articles about Bromine azide which guide to synthetic route it. The literature collected by LookChem mainly comes from the sharing of users and the free literature resources found by Internet computing technology. We keep the original model of the professional version of literature to make it easier and faster for users to retrieve and use. At the same time, we analyze and calculate the most feasible synthesis route with the highest yield for your reference as below:

synthetic route:
Guidance literature:
In neat (no solvent); byproducts: NaBr; layering bromine in a glass tube with NaN3 at -196°C, warming to -10°C, coupling on an electron diffractometer, cooling to -196°C, evacuation, warming to 0°C, reaction at room temp. for 1 h; monitored by electron diffraction;
Guidance literature:
In neat (no solvent); byproducts: NaBr; Br2 condensed onto NaN3 at -196°C; warmed to room temp.; kept for30 min; cooled to -15°C; trap at -80°C;
DOI:10.1002/anie.201108092
upstream raw materials:

silver(I) azide

bromine

lithium azide

Downstream raw materials:

nitrogen monobromide

nitrogen

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