Lithium;azanide;boron

Base Information

Chemical Name:Lithium;azanide;boron
CAS No.:99144-67-9
Molecular Formula:BH₅N*Li
Molecular Weight:36.7984
Hs Code.:
European Community (EC) Number:693-026-2
DSSTox Substance ID:DTXSID70453281
Mol file:99144-67-9.mol

Synonyms:lithium;azanide;boron;99144-67-9;CID 11051563;Borate(1-), amidotrihydro-, lithium, (T-4)-;DTXSID70453281;Lithium ammonia borane, technical grade

Suppliers and Price of Lithium;azanide;boron

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

Sigma-Aldrich
Lithium ammonia borane technical grade
10g
$ 1510.00

Sigma-Aldrich
Lithium ammonia borane technical grade
1g
$ 204.00

American Custom Chemicals Corporation
LITHIUM AMMONIA BORANE 95.00%
100MG
$ 1686.30

American Custom Chemicals Corporation
LITHIUM AMMONIA BORANE 95.00%
10MG
$ 716.10

Total 2 raw suppliers

Chemical Property of Lithium;azanide;boron

Chemical Property:

PSA：26.02000
LogP:-0.46680
Storage Temp.:2-8°C
Hydrogen Bond Donor Count:1
Hydrogen Bond Acceptor Count:1
Rotatable Bond Count:0
Exact Mass:34.0440327
Heavy Atom Count:3
Complexity:2

Purity/Quality:

98%,99%, ^*data from raw suppliers

Lithium ammonia borane technical grade ^*data from reagent suppliers

Safty Information:

Pictogram(s):
Hazard Codes:F,C
Statements: 14/15-34
Safety Statements: 26-36/37/39-43-45

MSDS Files:: SDS file from LookChem

Useful:

Canonical SMILES:[Li+].[B].[NH2-]
Uses Base material for alternative energy applications.1 This boron-based hydride is a low temperature source of hydrogen for fuel cells and other hydrogen consuming energy systems. Can also serve as an excellent reducing agent in various chemical processes.2 Lithium ammonia borane (LiNH2BH3) is an alkali-metal amidoborane that is mainly used in hydrogen storage applications. It has a hydrogen release percentage of ~10.9% at a low temperature (~90°C).

Technology Process of Lithium;azanide;boron

There total 1 articles about Lithium;azanide;boron 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:

Reference yield:

: 10043-11-5
borane-ammonia complex

: lithium hydride

: 2Li⁽¹⁺⁾*NHBH₃^(2-)=Li₂NHBH₃

: 99144-67-9
lithium amidoborane

Guidance literature:: In neat (no solvent, solid phase); byproducts: H2; LiH and NH3BH3 in a molar ratio of 1:1 were mech. milled under 1 bar of Ar at 200 rpm on a planetary mill; detd. by XRD;
DOI:10.1021/ic100308j

upstream raw materials:: borane-ammonia complex

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Technology Process of Lithium;azanide;boron

Lithium;azanide;boron

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