324 products.

Filter by Application

[Close]

122 products.

[Close all]

Benzene

[Close]

Benzene

Benzene is an aromatic hydrocarbon extracted from cracked gasoline. It is used as a raw material for petrochemicals and as a solvent.
CAS No 71-43-2

HSCode 2902.2

Japan, List of Existing Chemical Substances No. 3-1

C5

[Close]

The C5 fraction is a co-product of naphtha cracking and is used as a raw material for synthetic rubber and petroleum resins.

In conjunction with naphtha cracking, benzene, toluene, and cumene are extracted.

Toluene

[Close]

Toluene

Toluene is an aromatic hydrocarbon extracted from gasoline. It is used as a solvent.
CAS No 108-88-3
HSCode 2902.3
Japan, List of Existing Chemical Substances No. 3-2, 3-60

Propylene

[Close]

Propylene

Propylene is produced from naphtha cracking and is used as a basic petrochemical raw material for synthetic resins, etc.
CAS No 115-07-1
HSCode 2901.22
Japan, List of Existing Chemical Substances No. 2-13

Ethylene bottom

[Close]

Ethylene bottom is a co-product of naphtha cracking and is used as a raw material for carbon black.

Ethylene

[Close]

Ethylene

Ethylene is produced from naphtha cracking and is used as a basic petrochemical raw material for synthetic resins, etc.
CAS 74-85-1
HSCode 2901.21
Japan, List of Existing Chemical Substances No. 2-12

C9

[Close]

The C9 fraction is a co-product of naphtha cracking and is used as a raw material for petroleum resins.

PCD_BENEBiOL™

Biomass-based polycarbonatediol with superior characteristics

Polycarbonatediol(PCD) is a linear polycarbonate with hydroxyl groups at both ends. It easily reacts with isocyanate compounds(e.g. MDI, TDI, IPDI, H12MDI), and generates polymers with characteristics such as durability and chemical/hydrolysis resistance.

BENEBiOL™ is the biomass-based PCD developed by our proprietary manufacturing technology. Because of “key monomer“ of each grade, polyurethane resins based on BENEBiOL™ will show an outstanding property level with regard to flexibility and chemical/stain resistance for example, in addition to the characteristics of conventional PCD. Besides, your product will be equipped with unique touch and feeling.

Furthermore, BENEBiOL™ enables your product to be more sustainable, as some of raw materials of BENEBiOL™ are biomass-based.

Characteristics of polyurethane resins based on BENEBiOL™

  • sustainable:
    biomass-based(some grades:non-edible biomass-based)
  • long life and good appearance:
    transparency, stain resistance, chemical resistance, durability, toughness, weather resistance
  • unique touch and feel:
    flexibility, soft feel and touch, high hardness, good fit

Contact Form[別窓表示]

High Purity Ethylene Carbonate

High Purity Ethylene Carbonate. As ethylene carbonate is a highly polar solvent and dissolves large amount of electrolyte, it is mainly used in lithium batteries electrolyte solution. It can also readily dissolve polymers leading to use as a release agent and detergent. Our product is high quality with low impurity levels and low moisture. It has earned an excellent reputation for adherence to the strict quality standards demanded by our customers.
CAS: No.96-49-1
EINECS: No.202-510-0
Japan, Chemical Substances Control Law: METI-No. 5-523

Triethylene Glycol

Triethylene Glycol is widely used as a solvent. It has a high flash point, emits no toxic vapors, and is not absorbed through the skin.
CAS: No. 112-27-6
EINECS: No. 203-953-2
Japan, Chemical Substances Control Law: METI-No. 2-429
Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.3 (water soluble liquid).

Diethylene Glycol

Diethylene glycol is widely used as a solvent. It has a high flash point, emits no toxic vapors, and is not absorbed through the skin.
CAS: No. 111-46-6
EINECS: No. 203-872-2
Japan, Chemical Substances Control Law: METI-No. 2-415
Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.3(water soluble liquid).

Ethylene glycol

[Close]

Monoethylene glycol

Monoethylene glycol is one of the main raw materials for polyethylene terephthalate (PET resin). It is widely used for automotive antifreeze solutions because the freezing point is low, toxicity is low, and it is completely miscible in water.
CAS: No. 107-21-1
EINECS: No. 203-473-3
Japan, Chemical Substances Control Law: METI-No. 2-230
Japan, Fire Services Law: Hazardous material Class 4 Petroleums No. 3 (water-soluble liquid).

Ethylene Carbonate

As ethylene carbonate is a highly polar solvent and dissolves large amount of electrolyte, it is mainly used in lithium batteries electrolyte solution. It can also readily dissolve polymers leading to use as a release agent and detergent. Our product is high quality with low impurity levels and low moisture. It has earned an excellent reputation for adherence to the strict quality standards demanded by our customers.
CAS: No.96-49-1
EINECS: No.202-510-0
Japan, Chemical Substances Control Law: METI-No. 5-523

2-Ethyl hexanol

[Close]

2-Ethyl hexanol

2-Ethyl hexanol is an 8-carbon higher alcohol species. It is used to make the vinyl chloride plasticizer, bis(2-ethyl hexyl) phthalate. It is also used to make 2-ethyl hexyl acrylate for adhesives and paints.
CAS: No. 104-76-7 (T)
EINECS: No. 203-234-3
Japan, Chemical Substances Control Law: METI-No. 2-217
Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
Japan, Fire Services Law: Hazardous material Class4 Petroleums No.3 (non-water soluble liquid).

n-Butanol

[Close]

n-Butanol

Normal butanol is a 4-carbon, straight-chain alcohol. It is used as a solvent and as a raw material for coating resins, butyl acrylate, butyl acetates, glycol ethers, etc.
CAS: No. 71-36-3 (T)
EINECS: No. 200-751-6 Japan, Chemical Substances Control Law: METI-No. 2-3049
Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
Japan Fire Services Law: Hazardous material Class 4 Petroleums No.2 (non-water soluble liquid).

n-Butyraldehyde

[Close]

n-Buthylaldehyde

Normalbuthylaldehyde is a 4-carbon aldehyde species. It is used as a raw material to make 2-ethyl hexanol, n-butanol, trimethylolpropane, and polyvinyl buthylal.
Japan, Chemical Substances Control Law: METI-No. 2-494
Japan, Industrial Safety and Health Law: No. 2-494

Isobutanol

[Close]

Isobutanol

Isobutanol is a 4-carbon branched-chain alcohol used as a raw material for coating resins, Isobutyl acrylate, isobutyl acetate, isobutyl methacrylate, and paint thinners.
(CH3)2CHCH2OHO
Japan, Chemical Substances Control Law: METI-No. 2-3049
Japan, Industrial Safety and Health Law: No. 2-3049, ID No. 477
Japan, Law for Pollutant Release and Transfer Register: Not applicable.
Japan, Poisonous and Deleterious Substances Control Law: Not applicable.

Isobutyraldehyde

Isobutyraldehyde is a 4-carbon aldehyde species used as a raw material to make isobutanol and neopentyl glycol.
(CH32CHCHO
Japan, Chemical Substances Control Law: METI-No. 2-494
Japan, Industrial Safety and Health Law: No. 2-494
Japan, Law for Pollutant Release and Transfer Register: 1-35

Methyl Acrylate

[Close]

Methyl Acrylate

Methyl acrylate is the ester of acrylic acid and methanol. It is a raw material for applications including acrylic fibers, molding resins, adhesives, coatings, and emulsions.
CAS: No. 96-33-3
EINECS: No. 202-500-6
Japan, Chemical Substances Control Law: METI-No. 2-987
Japan,Fire Services Law: Hazardous material Class 4 Petroleums No. 1 (non-water soluble liquid).

Butyl Acrylate

[Close]

Butyl Acrylate

Butyl acrylate (BA) is the ester of acrylic acid and n-butanol. It is used as a raw material for fiber processing agents, adhesives, coatings, plastics, acrylic rubber, and emulsions.
CAS: No. 141-32-2
EINECS: No. 205-480-7
Japan, Chemical Substances Control Law: METI-No. 2-989
Japan, Fire Services Law: Hazardous material Class 4 Petroleums No. 2 (non-water soluble liquid).

Ethyl Acrylate

[Close]

Ethyl Acrylate

Ethyl Acrylate (EA) is the ester of acrylic acid and ethanol. It is used as a raw material for fiber processing agents, adhesives, coatings, plastics, acrylic rubber, and emulsions.
CAS: No. 140-88-5
EINECS: No. 205-438-8
Japan Chemical Substances Control Law: METI-No. 2-988
Japan, Fire Services Law: Hazardous material Class 4 Petroleums No. 1 (non-water soluble liquid).

Isobutyl Acrylate

Isobutyl Acrylate (IBA) is the ester of acrylic acid and isobutyl alcohol. It is used as a raw material for adhesives, coatings, plastics, and emulsions.
CAS: No. 106-63-8 EINECS: No. 203-417-8
Japan Chemical Substances Control Law: METI-No. 2-989
Japan, Fire Services Law: Hazardous material Class 4 Petroleums No. 2 (non-water soluble liquid).

2-Ethylhexyl Acrylate

2-Ethylhexyl acrylate (HA) is the ester of acrylic acid and 2-ethyl hexanol. It is used as a raw material to make adhesives, coatings, construction materials, acrylic rubber, and emulsions.
EINECS: No. 203-080-7
Japan Chemical Substances Control Law: METI-No. 2-990
Japan, Fire Services Law: Hazardous material Class 4 Petroleums No. 3 (non-water soluble liquid).

Acrylic acid is made by the direct oxidation of propylene. Acrylic acid / Toluene is made by diluting acrylic acid with toluene in a 7:3 ratio.
CAS: No. 79-10-7
EINECS: No. 201-177-9
Japan Chemical Substances Control Law: METI-No. 2-984
Japan, Poisonous and Deleterious Substances Control Law: Hazardous substance
Japan, Fire Services Law: Hazardous material Class 4 Petroleums No. 2 (water soluble liquid).

Phenol

[Close]

Phenol (Carbolic acid)

Phenol is an aromatic hydrocarbon compound composed of a benzene ring with a hydroxyl group. It is used as a raw material to make phenolic resins, bisphenol A for epoxy resins, and various pharmaceuticals.

  • CAS: No. 108-95-2
  • EINECS: No. 203-632-7
  • Japan, Chemical Substances Control Law: METI-No. 3-481
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Designated combustibles (flammable solid)

Bisphenol A

Bisphenol A is produced by reaction of phenol with acetone, and is used as a raw material and additive for epoxy resins and plastics. Mitsubishi Chemical's bisphenol A purity is a major advantage.

  • CAS: No. 80-05-7
  • EINECS: No. 201-245-8
  • Japan, Chemical Substances Control Law: METI-No. 4-0123
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Not applicable.

Cumene

[Close]

Cumene

Cumene is an aromatic hydrocarbon used as a raw material for the production of phenol and acetone by the cumene method. Mitsubishi Chemical's cumene features high purity.

  • CAS: No. 98-82-8
  • EINECS: No. 202-704-5
  • Japan, Chemical Substances Control Law: METI-No. 3-22
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.2 (non-water soluble liquid).

alpha-Methylstyrene

alpha-Methylstyrene is similar to styrene in its polymerization, but if it is used instead of styrene to make ABS resin, the ABS resin will have better thermal stability. alpha-Methylstyrene is also used as a raw material for paints and adhesives.

  • CAS: No. 98-83-9
  • EINECS: No. 202-705-0
  • Japan, Chemical Substances Control Law: No. 3-5
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.2 (non-water-soluble liquid).

Acetone

[Close]

Acetone

Acetone is an amphiphilic liquid that dries easily. It is a widely used solvent for paints, adhesives, and many other applications. Mitsubishi Chemical features very high purity acetone.

  • CAS: No. 67-64-1 (T)
  • EINECS: No. 200-662-2
  • Japan, Chemical Substances Control Law: METI-No. 2-542
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.1 (water-soluble liquid).

BioPTMG

Mitsubishi Chemical Corporation has developed BioPTMG, an environmentally friendly polyol that is manufactured from bio feedstocks.
BioPTMG has the same performance as petroleum-derived PTMG as a raw material for polyurethane resins and polyester resins, and has excellent impact resilience, wear resistance, hydrolysis resistance, flexibility at low temperatures, etc.
Taking advantage of its characteristics, it can be used in a wide range of fields from interior and fashion to industrial materials.
In case you are interested in our BioPTMG we are ready to send you samples for your own evaluation.

  • Grades:
    BioPTMG650、BioPTMG1000、BioPTMG2000、BioPTMG3000
  • CAS No.:
    25190-06-1
  • Japan, Chemical Substances Control Law:
    (7)-129
  • Japan, Poisonous and Deleterious Substances Control Law:
    Not applicable.
  • Japan, Fire Services Law:
    Hazardous Material Class 4 Petroleums No.4 Hazardous Rank III(BioPTMG650)
    Combustible Materials, Flammable Solids(BioPTMG1000, 2000, 3000)

PTMG

PTMG (Poly(tetramethylene ether)glycol / PTMG) is a linear polyether glycol with hydroxyl groups on both ends. As a polyol, it reacts readily with isocyanates (for example MDI, TDI), etc. to make resins with excellent properties.

  • Grades:
    PTMG250、PTMG650、PTMG850、PTMG1000、PTMG1300、PTMG1500、PTMG1800、PTMG2000、PTMG3000、PTMG3200(developed grade in mass production)
  • CAS No.:
    25190-06-1
  • Japan, Chemical Substances Control Law:
    METI-No. 7-129
  • Japan, Poisonous and Deleterious Substances Control Law:
    Not applicable.
  • Japan, Fire Services Law:
    Hazardous Material Class 4 Petroleums No.3 Hazardous Rank III (PTMG250)
    Hazardous Material Class 4 Petroleums No.4 Hazardous Rank III (PTMG650,850)
    Combustible Materials, Flammable Solids (PTMG1000, 1300, 1500, 1800, 2000, 3000, 3200(developed grade in mass production))

Maleic Anhydride

Maleic anhydride is produced by oxidation of benzene or a C4 hydrocarbon such as butane in the presence of a vanadium oxide catalyst. Maleic anhydride can be converted to maleic acid by hydrolysis and to esters by alcoholysis.

  • CAS: No. 108-31-6 (T)
  • EINECS: No. 203-571-6
  • Japan, Chemical Substances Control Law: METI-No. 2-1101
  • Japan, Industrial Safety and Health Law: ID No. 554 (SDS required)
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Not applicable.

THF

THF (Tetrahydrofuran) is a stable compound with relatively low boiling point and excellent solvency. It is widely-used for dissolution and reaction of various substances. Also it is used as a starting material for the synthesis of poly(tetramethylene ether) glycol (PTMG), etc. Since 1982, Mitsubishi Chemical's Yokkaichi plant has produced high-purity, high-quality THF from butadiene using our proprietary technology.

  • CAS: No. 109-99-9 (T)
  • EINECS: No. 203-726-8
  • Japan, Chemical Substances Control Law: METI-No. 5-53
  • Japan, Industrial Safety and Health Law: No. 5-53, ID No. 367 (SDS required)
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous Material Class 4 Petroleums No.1 (water-soluble liquid). Hazardous Rank II
  • U.N. Class: 3
  • U.N. No.: UN2056

NMP

NMP (N-Methyl-2-Pyrrolidone) is a polar solvent with outstanding characteristics. It has a wide range of applications because it offers very high solvency, high boiling point, low freezing point, and ease of handling.

  • CAS: No. 872-50-4 (T)
  • EINECS: No. 212-828-1
  • Japan Chemical Substances Control Law: METI-No. 5-113
  • Japan, Industrial Safety and Health Law: No. 8-1-1014
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.3 (water-soluble liquid).

GBL

GBL has a wide range of practical applications because of its low freezing point, high boiling point, and a unique combination of solvent and electrical properties. It has applications as a solvent for special resins, in photography, in batteries, and as an electrolyte. Also a number of derivatives are synthesized from GBL.

  • CAS: No. 96-48-0 (T)
  • EINECS: No. 202-509-5
  • Japan Chemical Substances Control Law: METI-No. 5-3337
  • Japan, Industrial Safety and Health Law: No. 5-3337
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.3 (water-soluble liquid).Aprotic, polar solvent.

12BG

12BG (1,2-butanediol) is a branched glycol that has a primary hydroxyl group and a secondary hydroxyl group on adjacent carbon atoms. Mitsubishi Chemical Corporation offers two grades of purity. Both can be reacted with a dicarboxylic acid (e.g., phthalic acid or adipic acid) for use as a polyester polyol or a plasticizer, or reacted with an unsaturated dicarboxylic acid (e.g., maleic anhydride) for use as a raw material for unsaturated polyester resin. The high-purity grade 12BG is suitable for use as a solvent for inks and as a raw material for surfactants.

  • CAS: No. 584-03-2 (T)
  • EINECS: No. 209-527-2
  • Chemical Substance Control Law (CSCL): METI-No. 2-235
  • Japan, Industrial Safety and Health Act (ISHA): No. 2-235
  • Japan, Poisonous and Deleterious Substances Control Act: Not applicable.
  • Japan, Fire Service Act:Hazardous Materials, Category IV—Class III petroleums (water soluble liquids)

14BG

14BG (1,4-Butanediol) is a straight chain glycol with hydroxyl groups on both ends. It is used as a raw material for high performance polyester and polyurethane resins as well as for industrial chemicals like tetrahydrofuran and gamma-butyrolactone. Since 1982, Mitsubishi Chemical's Yokkaichi plant has produced high-purity, high-quality 14BG from butadiene using our proprietary technology.

  • CAS: No. 110-63-4 (T)
  • EINECS: No. 203-786-5
  • Japan, Chemical Substances Control Law: METI-No. 2-235
  • Japan, Industrial Safety and Health Law: No. 2-235
  • Japan, Poisonous and Deleterious Substances Control Law: Not applicable.
  • Japan, Fire Services Law: Hazardous material Class 4 Petroleums No.3 (water-soluble liquid).

MKC™ Silicate is an oligomer formed by the partial hydrolysis of tetramethoxysilane. As an additive in paints, it produces a hydrophilic surface that is highly stain-resistant with the self-cleaning effect.

YOSHINOX BB is a phenolic antioxidant used as a resin additive or resin chemical.

YOSHINOX 425 (2,2'-Methylenebis(6-tert-butyl-4-ethylphenol)) is a phenolic antioxidant used as a resin additive or resin chemical.

Tomirac KN is a high heat-resistant developer for thermal paper.

Known for its excellent transparency and weatherability, as well as its easy recyclability, this acrylic resin has attracted a great deal of attention for environmental considerations. In addition to its use as a material in its own right, MMA monomer is also an important constituent of various compound chemical products.

Mainly used in paints, adhesives, and leather treatment agents, methacrylic acid is also used as a raw material in the manufacture of ion-exchange resins.

Using methacrylic acid as the raw material, we produce a range of methacrylic esters with diverse characteristics, suitable for many different applications.

Acrylonitrile

[Close]

Acrylonitrile is used as an acrylic fiber and ABS resin, as well as in the production of a variety of other chemical products.

Biocatalyst

[Close]

We launched the world's first biocatalytic industrial production of acrylamide in 1985 and have been offering this product since 1999.

Acrylamide

[Close]

Acrylamide is used as a raw material for paper strengthening agents and polymer flocculants, as well as in the production of a variety of other chemical products.
In other countries, it is often used as an oil drilling agent.

We developed this catalyst and have been offering it as a product since 1976. It has other excellent properties such as its byproduct ratio and ability to treat wastewater.

Acetic acid is used as a sour agent added in vinegar, pickled vegetables, and sauce, and as a raw material for spice. When used as a food additive, acetic acid can be indicated by its group name, substance name, or abbreviated name according to the purpose of use.

STANOCT (tin 2-ethylhexanoate), a resin additive or chemical, is used as a urethane foam catalyst and esterification catalyst.

Tomirac 214 is a thermal paper image stabilizer.

BPDA

BPDA (3,3',4,4'-Biphenyltetracarboxylic dianhydride) is a raw material for the polyimide resin component of one of the super-engineering plastics. It is used for many important information and electronic technology products such as mobile phones and copying machines.
CAS: No.2420-87-3(T)
EINECS: No.219-342-9
Japan Chemical Mfg. Reg.: No.4-833
Japan Poisonous and Deleterious Substances Control Law: Not applicable
Fire Services Law: Not applicable