Dichloromethane

Price	$1
Package	1kg

Min. Order:	1kg
Supply Ability:	100KG
Update Time:	2019-07-06

Product Details

Product Name: Dichloromethane	CAS No.: 75-09-2
Min. Order: 1kg	Purity: 99%
Supply Ability: 100KG	Release date: 2019/07/06

AD68

Dichloromethane Basic information

Overview Chemical Properties Purification and dehydration method Uses Detriment Content analysis Toxicity Hazards & Safety Information

Product Name:	Dichloromethane
Synonyms:	DEBLOCKING REAGENT;DEBLOCK REAGENT;DEBLOCK-TCA REAGENT;DETRITYLATING REAGENT;TRICHLOROACETIC ACID/DICHLOROMETHANE;TRICHLOROACETIC ACID IN DICHLOROMETHANE;Aerothene MM;CH2Cl2
CAS:	75-09-2
MF:	CH2Cl2
MW:	84.93
EINECS:	200-838-9
Product Categories:	refrigerants;Organics;alpha,omega-Bifunctional Alkanes;alpha,omega-Dichloroalkanes;Analytical Chemistry;Monofunctional & alpha,omega-Bifunctional Alkanes;Solvents for HPLC & Spectrophotometry;Solvents for Spectrophotometry;Anhydrous Solvents;Synthetic Organic Chemistry;HPLC Solvents;Standard Solution of Volatile Organic Compounds for Water & Soil Analysis;Standard Solutions (VOC);Dichloromethane (Methylene chloride);Solvent by Type;Solvents;CHROMASOLV for HPLC;Closed Head Drums;Drums Product Line;Analytical Reagents;Analytical/Chromatography;Chromatography Reagents &;HPLC &;HPLC Grade Solvents (CHROMASOLV);HPLC/UHPLC Solvents (CHROMASOLV);Semi-Bulk Solvents;Solvent by Application;Solvent Packaging Options;UHPLC Solvents (CHROMASOLV);Aluminum Bottles;Amber Glass Bottles;Multi-Compendial;Solvent Bottles;ACS Grade;NMR;Spectrophotometric Grade;Spectrophotometric Solvents;Spectroscopy Solvents (IR;UV/Vis);Infrared (IR) Spectroscopy;IR Solvents;IR Spectroscopy Solvents;Spectroscopy;CHROMASOLV Plus;HPLC Plus Grade Solvents (CHROMASOLV);Analytical Reagents for General Use;C-D;Puriss p.a.;Puriss p.a. ACS;Anhydrous;Products;Returnable Containers;Sure/Seal Bottles;Biotech Solvents;ACS and Reagent Grade Solvents;ACS Grade Solvents;NULL;#N/A;Pharmaceutical intermediates
Mol File:	75-09-2.mol

Dichloromethane Chemical Properties

Melting point	-97 °C
Boiling point	39.8-40 °C mm Hg(lit.)
density	1.325 g/mL at 25 °C(lit.)
vapor density	2.9 (vs air)
vapor pressure	24.45 psi ( 55 °C)
refractive index	n20/D 1.424(lit.)
Fp	39-40°C
storage temp.	Store at RT.
solubility	Miscible in ethyl acetate, alcohol, hexanes, methanol, diethyl ether, n-octanol, acetone benzene, carbon tetrachloride, diethyl ether and chloroform.
form	Liquid
color	APHA: ≤10
explosive limit	13-22%(V)
Water Solubility	20 g/L (20 ºC)
Merck	14,6063
BRN	1730800
CAS DataBase Reference	75-09-2(CAS DataBase Reference)
NIST Chemistry Reference	Methylene chloride(75-09-2)
EPA Substance Registry System	Methane, dichloro-(75-09-2)

Safety Information

Hazard Codes	Xn,T,F,N,C
Risk Statements	40-39/23/24/25-23/24/25-11-67-36/37/38-68/20/21/22-20/21/22-50-37-34
Safety Statements	23-24/25-36/37-45-16-7-26-61-36/37/39
RIDADR	UN 1593 6.1/PG 3
WGK Germany	2
RTECS	PA8050000
F	3-10
Hazard Note	Harmful
TSCA	Yes
HazardClass	6.1
PackingGroup	III
Hazardous Substances Data	75-09-2(Hazardous Substances Data)
Toxicity	LD50 orally in young adult rats: 1.6 ml/kg (Kimura)

MSDS Information

Dichloromethane Usage And Synthesis

Overview	Also known as methylene chloride, dichloromethane (DCM) is a transparent, colorless, volatile halogenated aliphatic hydrocarbon compound with an ether-like mildly sweet smell. It is moderately soluble in water as well as in most organic solvents namely; ether, ethanol, ketones, aldehydes, and phenols (1). Notably, DCM vapors are heavier than air and are normally non-explosive, stable, and non-flammable when exposed in the air; however, temperatures above 100oC must be avoided. Although natural sources do not largely contribute to the global release of DCM, the latter may lead to the formation of the former.
Chemical Properties	Methylene chloride reacts strongly with active metals such as potassium, sodium, and lithium, and strong bases, for instance, potassium tert-butoxide. However, the compound is incompatible with strong caustics, strong oxidizers, and metals that are chemically active such as magnesium and aluminum powders. It is noteworthy that methylene chloride can attack some forms of coatings, plastic, and rubber. In addition, dichloromethane reacts with liquid oxygen, sodium-potassium alloy, and nitrogen tetroxide. When the compound comes into contact with water, it corrodes some stainless steels, nickel, copper as well as iron. When exposed to heat or water, dichloromethane becomes very sensitive as it is subjected to hydrolysis that is hastened by light. Under normal conditions, solutions of DCM such as acetone or ethanol should be stable for 24 hours. Methylene chloride does not react with alkali metals, zinc, amines, magnesium, as well as alloys of zinc and aluminum. When mixed with nitric acid or dinitrogen pentoxide, the compound can vigorously explode. Methylene chloride is flammable when mixed with methanol vapor in the air. Since the compound can explode, it is important to avoid certain conditions such as sparks, hot surfaces, open flames, heat, static discharge, and other ignition sources.
Purification and dehydration method	Dichloromethane is safer than chloroform. So it is often used instead of chloroform as the extractant Heavier than water. Ordinary dichloromethane generally can be used directly as extractant. If purification is needed, it can be washed with 5% sodium carbonate solution, and then washed with water, and then dried with anhydrous calcium chloride, distillated to collect 40~41℃ distillate and stored in a brown bottle.
Uses	House Hold Uses The compound is used in bathtub refurbishing. Dichloromethane is highly used industrially in the production of pharmaceuticals, strippers, and process solvents. Industrial and Manufacturing Uses DCM is a solvent that is found in varnish and paint strippers, which are often used to remove varnish or paint coatings from various surfaces. As a solvent in the pharmaceutical industry, DCM is used for the preparation of cephalosporin and ampicillin. Food and Beverage Manufacturing It is also used in manufacturing beverage and food manufacturing as an extraction solvent. For instance, DCM can be used to decaffeinate unroasted coffee beans as well as tea leaves. The compound is also used in creating hops extract for beer, beverages and other flavoring for foods, as well as in processing spices. Transportation Industry DCM is normally used in the degreasing of metal parts and surfaces, such as railroad equipment and tracks as well as airplane components. It can also be used in degreasing and lubricating products utilized in automotive products, for instance, removal of the gasket and for preparing metal parts for a new gasket. Experts in automotive commonly use vapor dichloromethane degreasing process to for the removal of grease and oils from car parts of car transistor, spacecraft assemblies, aircraft components, and diesel motors. Today, specialists are able to safely and quickly clean transportation systems using degreasing techniques that depend on methylene chloride. Medical Industry Dichloromethane is used in laboratories in the extraction of chemicals from foods or plants for medicines such as antibiotics, steroids, and vitamins. In addition, medical equipment can be efficiently and quickly cleaned using dichloromethane cleaners while avoiding damage to heat-sensitive parts and corrosion problems. Photographic Films Methylene chloride is used as a solvent in the production of cellulose triacetate (CTA), which is applied in the creation of safety films in photography. When dissolved in DCM, CTA begins to evaporate as the fibre of acetate remains behind. Electronic Industry Methylene chloride is used in the production of printed circuit boards in the electronic industry. DCM is utilized to degrease the foil surface of the substrate before the photoresist layer is added to the board.
Detriment	Dichloromethane enters the human body mainly through inhalation and can cause anesthetic effects such as damages to the respiratory system and the central nervous system. When being used as a paint remover, DCM has been found to be present in high concentrations in indoor environments. The compound can be exposed to the general population through drinking water, air, and food contact, albeit in much smaller levels. Moreover, it is impossible for the compound to accumulate in the atmosphere due to its photolysis rate. Workers who are engaged in the manufacture of DCM, polycarbonate resin and paint remover formulation are at high risk of exposure.
Content analysis	Dichloromethane can be separated by dibutyl phthalate (DBP), then detected by GC with TCD, and quantified by comparison with standard dichloromethane. Reagents: carrier gas, helium (> 99.5%); carrier for white diatomaceous earth 6201 (40-60 mesh) or equivalent; stationary phase, DBP (in ether); standard dichloromethane, chromatographically pure dichloromethane; Instruments: a gas chromatograph with TCD, a column, a 3 m x 3 to 4 mm (inner diameter) stainless steel column. Conditions: fixed phase, 20%:DBP/6021 gasification temperature, 100℃, detection temperature 100℃; carrier gas flow rate, 70ml/min, column temperature of 70 ℃; TCD bridge current, 200mA ~; injection volume, <20μL; temperature. retention time (R) of other chlorinated solvents related to dichloromethane: methyl chloride 0.15; monochloroethane 0.34; 1,1-dichloroethylene 0.59; monochloropropylene, 0.85; carbon tetrachloride 1.86; chloroform 2.47.
Toxicity	ADI gives no specific stipulation (the residual amount of dichloromethane in the products should be minimized as long as the production demand is meet；FAO/WHO。1998)。
Hazards & Safety Information	toxicity grade:WHO Class II acute toxicity:acute peroral LD50 in rats 1600 mg/kg; mouse intraperitoneal LD50: 437 mg/kg Physiological stimulation:skin-rabbit 810 mg/24hours Severe; eyes-rabbit 500 mg/24hours Mild Explosive hazard characteristics:Explosive when mixed with air or oxygen Combustible hazard characteristics:It releases phosgene when heated. Its vapor is non-flammable transportation and storing characteristics:In ventilated dry storeroom at low temperature, kept apart from oxidizing agent and nitric acid extinguishant: Foam extinguisher, carbon dioxide, sprayed water, yellow sand. professional standard: TWA 350 mg/m3;STEL 879 mg/m3.
Chemical Properties	Clear, colourless, volatile liquid.
Uses	Pharmaceutic aid (solvent).
Air & Water Reactions	Methylene chloride is a colourless liquid with a mild, sweet odour. Somewhat water soluble. Subject to slow hydrolysis which is accelerated by light.
Reactivity Profile	Dichloromethane reacts vigorously with active metals such as lithium, sodium and potassium, and with strong bases such as potassium tert-butoxide. Dichloromethane is incompatible with strong oxidizers, strong caustics and chemically active metals such as aluminum or magnesium powders. The liquid will attack some forms of plastic, rubber and coatings. Dichloromethane reacts with sodium-potassium alloy, (potassium hydrogen + N-methyl-N-nitrosurea), nitrogen tetraoxide and liquid oxygen. Dichloromethane also reacts with titanium. On contact with water Dichloromethane corrodes iron, some stainless steels, copper and nickel. Dichloromethane is incompatible with alkali metals. Dichloromethane is incompatible with amines, zinc and alloys of aluminum, magnesium and zinc. Dichloromethane is liable to explode when mixed with dinitrogen pentaoxide or nitric acid. Mixtures of Dichloromethane in air with methanol vapor are flammable.
Hazard	Toxic. A narcotic. Central nervous systemimpairment and carboxyhemoglobinemia. Possiblecarcinogen.
Health Hazard	INHALATION: anesthetic effects, nausea and drunkenness. CONTACT WITH SKIN AND EYES: skin irritation, irritation of eyes and nose.
Fire Hazard	Special Hazards of Combustion Products: Dissociation products generated in a fire may be irritating or toxic.
Safety Profile	Confirmed carcinogen with experimental carcinogenic and tumorigenic data. Poison by intravenous route. Moderately toxic by ingestion, subcutaneous, and intraperitoneal routes. Mildly toxic by inhalation. Human systemic effects by ingestion and inhalation: paresthesia, somnolence, altered sleep time, convulsions, euphoria, and change in cardlac rate. An experimental teratogen. Experimental reproductive effects. An eye and severe skin irritant. Human mutation data reported. It is flammable in the range of 12-19% in air but ignition is difficult. It will not form explosive mixtures with air at ordinary temperatures. Mixtures in air with methanol vapor are flammable. It will form explosive mixtures with an atmosphere having a high oxygen content, in liquid O2, N2O4, K, Na, NaK. Explosive in the form of vapor when exposed to heat or flame. Reacts violently with Li, NaK, potassiumtert- butoxide, (KOH + N-methyl-Nnitrosourea). It can be decomposed by contact with hot surfaces and open flame, and then yield toxic fumes that are irritating and give warning of their presence. When heated to decomposition it emits highly toxic fumes of phosgene and Cl-.
Purification Methods	Shake it with portions of conc H2SO4 until the acid layer remains colourless, then wash with water, aqueous 5% Na2CO3, NaHCO3 or NaOH, then water again. Pre-dry with CaCl2, and distil it from CaSO4, CaH2 or P2O5. Store it away from bright light in a brown bottle with Linde type 4A molecular sieves, in an atmosphere of dry N2. Other purification steps include washing with aqueous Na2S2O3, passage through a column of silica gel, and removal of carbonyl-containing impurities as described under Chloroform. It has also been purified by treatment with basic alumina, distillation, and stored over molecular sieves under nitrogen [Puchot et al. J Am Chem Soc 108 2353 1986]. Dichloromethane from Japanese sources contained MeOH as stabiliser which is not removed by distillation. It can, however, be removed by standing over activated 3A Molecular Sieves (note that 4A Sieves cause the development of pressure in bottles), passed through activated Al2O3 and distilled [Gao et al. J Am Chem Soc 109 5771 1987]. It has been fractionated through a platinum spinning band column, degassed, and distilled onto degassed molecular sieves Linde 4A (heated under high vacuum at over 450o until the pressure readings reached the low values of 10-6 mm, ~1-2hours ). Stabilise it with 0.02% of 2,6-di-tert-butyl-p-cresol [Mohammad & Kosower J Am Chem Soc 93 2713 1971]. [Beilstein 1 IV 35.] Rapid purification: Reflux over CaH2 (5% w/v) and distil it. Store it over 4A molecular sieves.

Company Profile Introduction

Established in 2014,Career Henan Chemical Co. is a manufacturerspecializing in the sale of fine chemicals. Mainly deals in the sales of: Pharmaceutical intermediates OLED intermediates： Pharmaceutical intermediates; OLED intermediates;

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Dichloromethane

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