7718-54-9

Basic information

• Product Name: Nickel chloride
• Synonyms: NICKEL(+2)CHLORIDE;NICKEL CHLORIDE;NICKEL DICHLORIDE;NICKEL(II) CHLORIDE;Hexahydrate;Nickel chloride (NiCl2);Nickel(II) chloride (1:2);Nickel(II)-chlorid
• CAS NO: 7718-54-9
• Molecular Formula: Cl₂Ni
• Molecular Weight: 129.6
• EINECS: 231-743-0
• Product Categories: Inorganics;Catalysis and Inorganic Chemistry;Chemical Synthesis;Nickel Salts;NickelMetal and Ceramic Science;Salts;Crystal Grade Inorganics;Metal and Ceramic Science;metal halide
• Mol File: 7718-54-9.mol
• Article Data: 2

Chemical Properties

• Melting Point: 1001 °C
• Boiling Point: 987°C
• Appearance: Yellow to orange/powder
• Density: 3.55 g/mL at 25 °C(lit.)
• Vapor Pressure: 33900mmHg at 25°C
• Storage Temp.: Store below +30°C.
• Solubility: H2O: soluble
• Water Solubility: slightly soluble
• Sensitive: Hygroscopic
• Stability: Stable. Incompatible with peroxides.
• Merck: 14,6505
• CAS DataBase Reference: Nickel chloride(CAS DataBase Reference)
• NIST Chemistry Reference: Nickel chloride(7718-54-9)
• EPA Substance Registry System: Nickel chloride(7718-54-9)

Safety Data

• Hazard Codes: T,N,Xi
• Statements: 45-25-36/38-43-50-50/53-22-52/53-68-51/53-48/23-42/43-20/22-61-49-38-23/25
• Safety Statements: 53-26-36/37-45-61-37-29-24-23-60
• RIDADR: UN 3288 6.1/PG 3
• WGK Germany: 3
• RTECS: QR6475000
• F: 3
• TSCA: Yes
• HazardClass: 6.1(b)
• PackingGroup: III
• Hazardous Substances Data: 7718-54-9(Hazardous Substances Data)

Usage

Description

Different sources of media describe the Description of 7718-54-9 differently. You can refer to the following data:
1. Nickel chloride is a brown or green colored solid. Most nickel chloride is used for electroplating and nickel plating, used to prepare various nickel salts and nickel catalysts; . During electroplating, it accelerates the dissolution of anode metal nickel, while acting to increase the electrolyte level of the solution. Nickel chloride can be used as catalyst for organic synthesis (e.g. pyrazolophthalazinyl spirooxindoles), to synthesize nickel nanoparticles as a reductant, and to prepare nickel coordination compounds, and and in industrial gas masks to protect from ammonia. It can also be used as an NH3 absorbent in gas masks and as a source of nickel ion for cell culture and toxicological studies.
2. Nickel chloride, NiCl2, is a water-soluble salt used in a variety of industries. It is typically produced and used either as an anhydrous salt or as a hydrate: nickel chloride hexahydrate as well as nickel chloride dihydrate. Nickel chloride is very rarely found in nature, and is produced via extraction from nickelcontaining ores via treatment with hydrochloric acid.

Properties

NICKEL CHLORIDE is a brown or green colored solid. Its hexahydrate is a green monoclinic crystal, which is weathered in dry air and deliquescent in moist air. It is easily soluble in water, ethanol and ammonia. It is easily reduced to nickel when heated in hydrogen and becomes nickel oxide by heating in the air. It loses water of crystallization and becomes anhydrous in high temperature. The aqueous solution is acidic. Nickel chloride can combine with the anions of many inorganic and organic molecules to form nickel complexes, and form insoluble precipitates in weak acids.

Preparation

Different sources of media describe the Preparation of 7718-54-9 differently. You can refer to the following data:
1. Anhydrous nickel chloride is prepared by burning nickel in chlorine gas. Some other methods of preparation involve (1) the action of acetyl chloride on nickel acetate in a nonaqueous solvent such as benzene: (CH3COO)2Ni + 2CH3COCl → NiCl2 + 2CH3COOCOCH3 (2) the action of thionyl chloride on nickel chloride hexahydrate: NiCl2?6H2O + 6SOCl2 → NiCl2 + 12HCl + 6SO2 (3) heating nickel chloride hexahydrate or nickel chloride ammoniate: NiCl2?6H2O → NiCl2 + 6H2O NiCl2?6NH3 → NiCl2 + 6NH3 The hexahydrate is prepared either by the action of hot dilute hydrochloric acid on nickel powder or by dissolving nickel oxide in dilute hydrochloric acid followed by crystallization. For the preparation of ammoniate, see Reactions below.
2. Nickel(II) chloride can be obtained by reaction of the elements either in a flow system at high temperatures or by reaction in ethanol at 20°. It is readily prepared in the laboratory by dehydration of the hexahydrate with thionyl chloride.

Reaction

When ammonia gas is passed over anhydrous nickel chloride the product is an ammoniate, hexamine nickel chloride, NiCl2?6NH3. Ammoniate also can be prepared in solution by dissolving nickel chloride hexahydrate in an aqueous solution of ammonia. Nickel chloride forms double salts with alkali metal chlorides or ammonium chloride. Such double salts, NH4Cl?NiCl2?6H2O, are obtained as hexahydrate when crystallized from a mixed solution of nickel chloride and ammonium chloride in equimolar amounts. Warming a solution of nickel chloride and sodium hydroxide at moderate concentrations may partially precipitate a basic salt of indefinite composition. The average composition of this salt is NiCl2?3Ni(OH)2. Salt composition may vary depending on reaction conditions. When hydrogen sulfide is passed through a buffered solution of nickel chloride, nickel sulfide, NiS, precipitates. An alcoholic solution of nickel chloride, when treated with an ethereal solution of dithiobenzoic acid, C6H5CSSH, blue nickel(II) dithiobenzoate,(C6H5CSS)2Ni, is formed: NiCl2 + 2C6H5CSSH→ Ni (C6H5CSS)2 + 2HCl The product oxidizes readily to a violet dimeric nickel(IV) complex.

Health Hazards

Acute Health Effects The following acute (short-term) health effects may occur immediately or shortly after exposure to Nickel Chloride: Contact can irritate and bum the skin and eyes. Breathing Nickel Chloride can irritate the nose, throat and lungs causing cough, phlegm and shortness of breath. ? Chronic Health Effects The following chronic (long-term) health effects can occur at some time after exposure to Nickel Chloride and can last for months or years: Cancer Hazard Nickel Chloride may cause mutations (genetic changes). Whether or not it poses a cancer or reproductive hazard needs further study. Reproductive Hazard There is limited evidence that Nickel Chloride is a teratogen in animals. Until further testing has been done, it should be treated as a possible teratogen in humans. Other Long-Term Effects Nickel Chloride may cause a skin allergy. If allergy develops, very low future exposure can cause itching and a skin rash. Nickel Chloride may cause an asthma-like allergy. Future exposure can cause asthma attacks with shortness of breath, wheezing, cough, and/or chest tightness. Repeated exposure may cause scarring of the lungs and may affect the kidneys.

References

[1] X. N. Zhang, Y. X. Li and Z. H. Zhang, Nickel chloride-catalyzed one-pot three-component synthesis of pyrazolophthalazinyl spirooxindoles, Tetrahedron, 2011, vol. 67, 7426-7430 [2] Z. Jiang, J. Xie, D. Jiang, X. Wie and M. Chen, Modifiers- assisted formation of nickel nanoparticles and their catalytic application to p-nitrophenol reduction, CrystEngComm, 2013, vol. 15, 560-569 [3] NA Eckert, EM Bones, RJ Lachicotte and PL Holland, Nickel complexes of a bulky beta-diketiminate ligand, Inorg. Chem., 2003, vol. 42, 1720-1725

Chemical Properties

Different sources of media describe the Chemical Properties of 7718-54-9 differently. You can refer to the following data:
1. Brown scales, deliquescent
2. Nickel chloride appears as green or brown scales, or sparkling golden-yellow powder.

Physical properties

The anhydrous salt forms yellow crystal scales; deliquesces; density 3.55 g/cm3; melts at 1,001°C; sublimes at 973°C; highly soluble in water, 64 g/100mL at 20°C; soluble in alcohol.The hexahydrate forms green monoclinic crystals; deliquesces; extremely soluble in water, 254 g/100mL at 20°C, and about 600 g/100 ml at 100°C; also very soluble in alcohol.

Uses

Different sources of media describe the Uses of 7718-54-9 differently. You can refer to the following data:
1. Nickel chloride (NiCl2) is used for electroplating nickel onto the surfaces of other metals and as a chemical reagent in laboratories.
2. Nickel chloride solutions are used for electroplating nickel onto other metal items.It also is used to prepare various nickel salts and nickel catalysts; and in industrial gas masks to protect from ammonia.
3. Nickel chloride is used for nickel plating cast zinc, as an agent in electrolytic refining of nickel, as a chemical intermediate for nickel catalysts and complex nickel salts, as an absorber of ammonia gas in industrial gas masks, as a catalyst in diarylamine and silicon tetrachloride production, as an agent in electrodeless plating of nickel, as an agent in tin–nickel alloy plating, and as a fungicide for control of rust and rustlike disease. However, workers exposed to different forms of nickel have an elevated risk of lung cancer. Besides, Ni and its compounds (particularly insoluble compounds of nickel) have been reported to be potent carcinogens and toxic agents in humans and experimental animals. Therefore, Ni compounds are considered to be an industrial/occupational health hazard.

Definition

Different sources of media describe the Definition of 7718-54-9 differently. You can refer to the following data:
1. ChEBI: A compound of nickel and chloride in which the ratio of nickel (in the +2 oxidation state) to chloride is 1:2. Nickel chloride is a yellow deliquescent solid with a boiling point of 973°C(1690°F). Nickel chloride is soluble in water and alcohol. Nickel chloride(hydrated),NiCI2·H20, is a gray deliquescent solid that is also soluble in water and alcohol.It is used in nickel plating.
2. hexahydrate: A crystalline compoundthat has six moles of waterper mole of compound.

Production Methods

Nickel chloride (hexahydrate) is obtained by reacting metal nickel powder or nickel oxide with hot, dilute hydrochloric acid.

General Description

Nickel(II) chloride (NiCl2) is a nickel based halide that is prepared by burning nickel in chlorine. It is a water soluble compound that crystallizes to form a hexahydrate. It is majorly utilized in organic synthesis as a catalyst and a precursor.

Flammability and Explosibility

Nonflammable

Safety Profile

Confirmed human carcinogen. Poison by ingestion, intravenous, intramuscular, and intraperitoneal routes. An experimental teratogen. Experimental reproductive effects. Mutation data reported. When heated to decomposition it emits very toxic fumes of Cl-. See also NICICEL COMPOUNDS.

Potential Exposure

Nickel chloride is used in electroplating and ink manufacturing.

Environmental Fate

Nickel chloride is water soluble (642 g l-1 for anhydrous; 2540 g l-1 for hexahydrate) and would be expected to release divalent nickel into the water. Since nickel chloride quickly dissolves upon exposure to moist environments, and partially due to the ubiquity of nickel in soil, water, and air, tracking the course of the salt through the environment is difficult. This is particularly due to nickel’s ability to complex with anionic species other than chloride to form nickel oxide, sulfate, nitrate, carbonate, or acetate, among others. Industrial uses of nickel chloride result in nickel being distributed mainly at soil surfaces and through surrounding waterways and water tables. Once distributed to the soil, nickel chloride produces nickel(II) ions to potentially form inorganic crystalline minerals or precipitates, can complex or adsorb onto organic and inorganic surfaces, can participate in cation exchange, and can exist as free-ion or chelated metal complexes in soil solution.

Toxicity evaluation

The parent metal alters sodium balance and lipid metabolism; it induces metallothionein synthesis. Nickel chloride affects the T-cell portion of the immune system and suppresses the activity of natural killer cells. If given orally or by inhalation, nickel chloride has been reported to decrease iodine uptake by the thyroid gland. The lipid peroxidation properties of nickel can introduce potential malignancies in humans, as DNA strand gaps and breaks in DNA–protein cross-links can form. The downregulation of glycoprotein metabolism by nickel ions may produce nephrotoxicity in humans as well.

Incompatibilities

Strong acids, potassium, sulfur. Forms an impact-sensitive mixture with potassium.

Waste Disposal

Recycle or disposal in a chemical waste landfill is recommended.

InChI:InChI=1/2ClH.Ni/h2*1H;/q;;+2/p-2

Synthetic route

nickel (7440-02-0) + silver(I) chloride → nickel(II) chloride (7718-54-9)

Conditions	Yield
In neat (no solvent, solid phase) mixt. of metal (tenfold excess) and AgCl heated in Ar (400 Torr) until react. was complete; cooled, evacuated, co-condensed with solid matrix (N2 or Ar);

hydrogenchloride (7647-01-0) + nickel (7440-02-0) → nickel(II) chloride (7718-54-9)

Conditions	Yield
In water Dissoln. of Ni wire in aq. HCl at about 50°C using a piece of Pt in contact with the Ni (acting as cathode for better soln. of Ni).; Placement of NiCl2 in a quartz boat, vaporisation by heating to about 600°C, seeding of vapor in about 4 atm of Ar, expanding through nozzle (250μm hole).;
In neat (no solvent) isolation in N2 or CH4 solid matrix;

7-((R)-2-hydroxymethyl-6-oxo-piperidin-1-yl)-hept-5-ynoic acid methyl ester (802907-39-7) + nickel(II) chloride (7718-54-9) → 7-((R)-2-hydroxymethyl-6-oxo-piperidin-1-yl)-hept-5-enoic acid methyl ester

Conditions	Yield
With sodium borohydrid In ethanol; ethylenediamine	16.7 mg (38%)

4-Cyanochlorobenzene (623-03-0) + 4-(5-bromo-2-methylbenzyl)-5-methoxy-2-methyl-2,4-dihydro-3H,1-2,4-triazol-3-one (258885-52-8) + nickel(II) chloride (7718-54-9) + zinc (7440-66-6) → 4-{5-(4-cyanophenyl)-2-methylbenzyl}-5-methoxy-2-methyl-2,4-dihydro-3H-1,2,4-triazol-3-one (258885-71-1)

Conditions	Yield
With hydrogenchloride; sodium hydrogencarbonate; triphenylphosphine In pyridine; water; ethyl acetate

[(4-methoxybenzenesulfonyl)-2-oxo-athyl)-amino]acetic acid t-butyl ester + E-styryl iodide (42599-24-6) + chromium (II) chloride (10049-05-5) + nickel(II) chloride (7718-54-9) → (+)-(E)-[(2-hydroxy-4-phenyl-but-3-enyl)-(4-methoxybenzenesulphonyl)-amino]-acetic acid t-butyl ester

Conditions	Yield
In N-methyl-acetamide

Vinyl bromide (593-60-2) + thiamine diphosphate (154-87-0) + nickel(II) chloride (7718-54-9) + 3,4,5-trifluoro-1-bromobenzene (138526-69-9) → 3,4,5-Trifluorovinylbenzene

Conditions	Yield
With n-butyllithium; zinc dibromide In tetrahydrofuran

phenyl chloroacetate (620-73-5) + para-chlorotoluene (106-43-4) + nickel(II) chloride (7718-54-9) → 4-acetoxy-4’-methylbiphenyl (127783-74-8)

Conditions	Yield
With sodium iodide; zinc In N-methyl-acetamide; chloroform

7-[2-oxo-6-((E)-3-oxo-oct-1-enyl)-piperidin-1-yl]-hept-5-ynoic acid methyl ester (697802-45-2) + nickel(II) chloride (7718-54-9) → (Z)-7-[2-oxo-6-((E)-3-oxo-oct-1-enyl)-piperidin-1-yl]-hept-5-enoic acid methyl ester (697802-47-4)

Conditions	Yield
With sodium borohydrid In ethanol; ethyl acetate; ethylenediamine	65 mg (43%)

7-[2-oxo-6-((E)-3-oxo-4-phenyl-but-1-enyl)-piperidin-1-yl]-hept-5-ynoic acid methyl ester (697802-67-8) + nickel(II) chloride (7718-54-9) → (Z)-7-[2-oxo-6-((E)-3-oxo-4-phenyl-but-1-enyl)-piperidin-1-yl]-hept-5-enoic acid methyl ester (697802-69-0)

Conditions	Yield
With sodium borohydrid In ethanol; ethylenediamine	28 mg (70%)
With sodium borohydrid In ethanol; ethylenediamine	28 mg (70%)

Upstream product

• 7647-01-0 hydrogenchloride 
• 7440-02-0 nickel 

Downstream Products

• 697802-69-0 (Z)-7-[2-oxo-6-((E)-3-oxo-4-phenyl-but-1-enyl)-piperidin-1-yl]-hept-5-enoic acid methyl ester 
• 258885-71-1 4-{5-(4-cyanophenyl)-2-methylbenzyl}-5-methoxy-2-methyl-2,4-dihydro-3H-1,2,4-triazol-3-one 

Relevant articles and documents

Process for producing p-xylene

In a process for producing p-xylene which comprises catalytically methylating toluene with a methylating agent in the gaseous phase, the improvement wherein (a) said methylation is carried out continuously in a multi-stage reaction system consisting of a plurality of separate series-connected fixed catalyst layers without separating the resulting xylenes in an intermediate stage, (b) said toluene is fed together with hydrogen gas into only the first-stage fixed catalyst layer and passed successively through the subsequent fixed catalyst layers, the amount of toluene fed being such that the total weight hourly space velocity of toluene is from 1 to 300 hr-1, (c) said methylating agent is fed into each of said fixed catalyst layers, if desired together with hydrogen gas, the amount of the methylating agent fed into each catalyst layer being 0.01/t moles to 1/t moles, in which t is the number of methyl groups in the methylating agent, per mole of toluene fed into the first-stage catalyst layer, and the total amount of the methylating agent fed into all of the catalyst layers being within the range of 0.1/t moles to 2/t moles, in which t is as defined, per mole of toluene fed into the first-stage catalyst layer, and (d) each fixed catalyst layer is filled with a catalyst composed of a crystalline aluminosilicate containing magnesium oxide or lanthanide oxide.