939935
氯化亚铁
≥99.99% trace metals basis
别名:
二氯化铁, 氯化亚铁
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Assay:
≥99.99% trace metals basis
Form:
powder or crystals
Solubility:
water: soluble
InChI key
NMCUIPGRVMDVDB-UHFFFAOYSA-L
InChI
1S/2ClH.Fe/h2*1H;/q;;+2/p-2
SMILES string
Cl[Fe]Cl
assay
≥99.99% trace metals basis
form
powder or crystals
greener alternative product characteristics
Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.
sustainability
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impurities
≤100 ppm (trace metals analysis)
mp
677 °C (lit.)
solubility
water: soluble
density
3.16 g/mL at 25 °C (lit.), 3.16 g/mL at 25 °C
anion traces
nitrate (NO3-): ≤20 ppm, sulfate (SO42-): ≤20 ppm
cation traces
Al: ≤10 ppm, B: ≤10 ppm, Ba: ≤10 ppm, Ca: ≤10 ppm, Co: ≤10 ppm, Cr: ≤10 ppm, Cu: ≤10 ppm, K: ≤10 ppm, Mg: ≤10 ppm, Mn: ≤10 ppm, Na: ≤10 ppm, Ni: ≤10 ppm, Si: ≤10 ppm, Ti: ≤10 ppm, Zn: ≤10 ppm
greener alternative category
storage temp.
2-30°C
Quality Level
General description
Iron(II) chloride, also known as Ferrous chloride, is a solid with paramagnetic properties and a high melting point. In general, the synthesis of ferrous chloride involves the addition of iron powder to a solution of hydrochloric acid in methanol. This reaction results in the formation of the methanol solvate of dichloride. Subsequently, by subjecting the solvate to vacuum and heating it at around 160 °C, the solvate transforms into anhydrous ferrous chloride (FeCl2).Iron(II) chloride exhibits solubility in tetrahydrofuran (THF), making it a crucial precursor material for the synthesis of organometallic compounds.
We are committed to bringing you Greener Alternative Products, which belongs to one of the four categories of greener alternatives. This product belongs to an Enabling category, and is used in the electrodeposition of iron-aluminum alloys for thermoelectric applications, enhancing energy conversion efficiency. This process, utilizing molten salt systems, contributes to sustainable energy technologies and supports the development of advanced materials for eco-friendly energy storage and conversion. Click here for more information.
Application
Thermoelectric materials have gained attention for their ability to directly convert temperature differences into electrical energy. High purity Iron(II) chloride, is used as a precursor for the synthesize of Heusler-type iron-based thermoelectric materials, Fe2XAl (X = V, Ti, etc.) for the use in thermoelectric conversion. For example: the binary Fe-Al thin films are synthesized using electrodeposition method in Iron(II) chloride containig quaternary molten salts which exhibited p- or n-type thermoelectric conversion, depending on their composition. In addition, our high purity Iron(II) chloride, anhydrous is also used as a source of Iron to produce supercapacitor material such as heteroatom -dopped porus carbon. In the synthesis process, Iron(II) chloride is used as catalyst and template to shape the structure of the electrode with large specific surface area, high specific capacitance along with excellent rate capability and cycle stability due to the combination of in situ molten salt templating and chemical blowing.
Features and Benefits
- >=99.99% trace metals basis (purity)
- Anhydrous
- Low water content
- Low Oxygen content
-Perfect use for molten salt reactors
- Anhydrous
- Low water content
- Low Oxygen content
-Perfect use for molten salt reactors
signalword
Danger
hcodes
Hazard Classifications
Acute Tox. 4 Oral - Eye Dam. 1
存储类别
13 - Non Combustible Solids
wgk
WGK 1
flash_point_f
Not applicable
flash_point_c
Not applicable
法规信息
新产品
此项目有
Preparation of Fe?Al Binary Thermoelectric Conversion Films by Electrodeposition in AlCl3?NaCl?KCl?FeCl2 Quaternary Molten Salts
Hiroaki Yamamoto et al.
Journal of Electrochemical Science and Engineering, 168 (2021)
New polynuclear compounds of iron(II) chloride with oxygen donor ligands Part I. Fe4Cl8(THF)6: synthesis and a single crystal X-ray structure determination
Cotton F.Albert et. al.
Inorganica chimica acta, 179, 11?15-11?15 (1991)
Biomass peach Gum-Derived Heteroatom-Doped porous carbon via in situ molten salt activation for High-Performance supercapacitors.
Liu, X. et. al.
Energy & Fuels, 35(23) (2021)
Iron(II) Halides
Winter et. al.
Inorganic Synthesis, 14 (1973)
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