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Sodium amide - hydrogen-storage grade, high purity , CAS No.7782-92-5

11 Citations COA COA
In stock
Item Number
S434058
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S434058-10g
10g
Available within 8-12 weeks(?)
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$114.90
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Basic Description

Synonyms EC 231-971-0 | EINECS 231-971-0 | FT-0689068 | HSDB 692 | Q188260 | SODIUM AMIDE | SODIUM AMIDE [MI] | AKOS015960454 | 5DB3G6PX9D | SODIUM AMIDE [HSDB] | Sodium amide (Na(NH2)) | Sodium amide, 50 wt. % suspension in toluene | Sodium amide, hydrogen-storag
Specifications & Purity hydrogen-storage grade
Product Description

General Description

We are committed to bringing you Greener Alternative Products, which adhere to one or more of The 12 Principles of Greener Chemistry. This product has been enhanced for energy efficiency. Find details here .


Application

Sodium amide (NH 2 Na) can be used for a variety of applications such as: production of a hydrogen storage system adsorption of CO 2 fabrication of fuel cells

Taxonomic Classification

Taxonomy Tree

Kingdom Inorganic compounds
Superclass Mixed metal/non-metal compounds
Class Alkali metal organides
Subclass Alkali metal nitrides
Intermediate Tree Nodes Not available
Direct Parent Alkali metal nitrides
Alternative Parents Inorganic sodium salts  Inorganic nitrides  
Molecular Framework Not available
Substituents Alkali metal nitride - Inorganic sodium salt - Inorganic nitride - Inorganic salt
Description This compound belongs to the class of inorganic compounds known as alkali metal nitrides. These are inorganic compounds of nitrogen where nitrogen has a formal oxidation state of -3, and the heaviest metal atom is an alkali metal.
External Descriptors Not available

Names and Identifiers

IUPAC Name sodium;azanide
INCHI InChI=1S/H2N.Na/h1H2;/q-1;+1
InChIKey ODZPKZBBUMBTMG-UHFFFAOYSA-N
Smiles [NH2-].[Na+]
Isomeric SMILES [NH2-].[Na+]
WGK Germany 2
PubChem CID 24533
UN Number 1390
Packing Group II
Molecular Weight 39.01

Certificates(CoA,COO,BSE/TSE and Analysis Chart)

C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:

Chemical and Physical Properties

Boil Point(°C) 400°C
Melt Point(°C) 210°C
Molecular Weight 39.013 g/mol
XLogP3
Hydrogen Bond Donor Count 1
Hydrogen Bond Acceptor Count 1
Rotatable Bond Count 0
Exact Mass 39.0085 Da
Monoisotopic Mass 39.0085 Da
Topological Polar Surface Area 1.000 Ų
Heavy Atom Count 2
Formal Charge 0
Complexity 2.000
Isotope Atom Count 0
Defined Atom Stereocenter Count 0
Undefined Atom Stereocenter Count 0
Defined Bond Stereocenter Count 0
Undefined Bond Stereocenter Count 0
The total count of all stereochemical bonds 0
Covalently-Bonded Unit Count 2

Citations of This Product

How to Cite Aladdin Scientific Products?
1. Xiaoxu Zhao, Yueqin Liu, Jianfeng Guo, Na Chang, Haitao Wang.  (2022)  NCQDs active sites as effective collectors of charge carriers towards enhanced photocatalytic activity of porous Co3O4.  ENVIRONMENTAL TECHNOLOGY,     
2. Weijun Ying, Shuo Tian, Huan Liu, Zenan Zhou, Grantson Kapeso, Jinhuan Zhong, Wenbiao Zhang.  (2022)  In Situ Dry Chemical Synthesis of Nitrogen-Doped Activated Carbon from Bamboo Charcoal for Carbon Dioxide Adsorption.  Materials,  15  (3): (763). 
3. Zhixiu Yang, Xiaofei Guo, Guojie Zhang, Ying Xu.  (2020)  One-pot synthesis of high N-doped porous carbons derived from a N-rich oil palm biomass residue in low temperature for CO2 capture.  INTERNATIONAL JOURNAL OF ENERGY RESEARCH,  44  (6): (4875-4887). 
4. Zhixiu Yang, Guojie Zhang, Ying Xu, Peiyu Zhao.  (2019)  One step N-doping and activation of biomass carbon at low temperature through NaNH2: An effective approach to CO2 adsorbents.  Journal of CO2 Utilization,  33  (320). 
5. Yan Zhang, Lu Liu, Peixin Zhang, Jun Wang, Mai Xu, Qiang Deng, Zheling Zeng, Shuguang Deng.  (2019)  Ultra-high surface area and nitrogen-rich porous carbons prepared by a low-temperature activation method with superior gas selective adsorption and outstanding supercapacitance performance.  CHEMICAL ENGINEERING JOURNAL,  355  (309). 
6. Zuo Yong, Liu Yu, He Qiong-Ping, Song Ji-Ming, Niu He-Lin, Mao Chang-Jie.  (2018)  CuAgSe nanocrystals: colloidal synthesis, characterization and their thermoelectric performance.  JOURNAL OF MATERIALS SCIENCE,  53  (21): (14998-15008). 
7. Mei Guo, Yu Li, Kewen Du, Chaochao Qiu, Gang Dou, Guoxin Zhang.  (2018)  Fabricating hierarchically porous carbon with well-defined open pores via polymer dehalogenation for high-performance supercapacitor.  APPLIED SURFACE SCIENCE,  440  (606). 
8. Zhen Hu, Qing Shao, Xirong Xu, Dayu Zhang, Yudong Huang.  (2017)  Surface initiated grafting of polymer chains on carbon nanotubes via one-step cycloaddition of diarylcarbene.  COMPOSITES SCIENCE AND TECHNOLOGY,  142  (294). 
9. Zhen Hu, Qing Shao, Mark G. Moloney, Xirong Xu, Dayu Zhang, Jun Li, Chunhua Zhang, Yudong Huang.  (2017)  Nondestructive Functionalization of Graphene by Surface-Initiated Atom Transfer Radical Polymerization: An Ideal Nanofiller for Poly(p-phenylene benzobisoxazole) Fibers.  MACROMOLECULES,  50  (4): (1422–1429). 
10. Zhen Hu, Chenhao Song, Qing Shao, Jun Li, Yudong Huang.  (2016)  One-step functionalization of graphene by cycloaddition of diarylcarbene and its application as reinforcement in epoxy composites.  COMPOSITES SCIENCE AND TECHNOLOGY,  135  (21). 
11. Guoxin Zhang, Kang Zhou, Ruoyu Xu, Hekai Chen, Xiaoke Ma, Biao Zhang, Zheng Chang, Xiaoming Sun.  (2016)  An alternative pathway to water soluble functionalized graphene from the defluorination of graphite fluoride.  CARBON,  96  (1022). 

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