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2,3-dimethyl-1,3-butadiene
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2,3-dimethyl-1,3-butadiene structural formula

Structural formula

Business number 05AZ
Molecular formula C6H10
Molecular weight 82.15
label

CH2=C(CH3)C(CH3)=CH2

Numbering system

CAS number:513-81-5

MDL number:MFCD00008595

EINECS number:208-172-0

RTECS number:None

BRN number:605285

PubChem number:24864689

Physical property data

1. Properties: colorless liquid

2. Density (g/ cm3, 25/4℃): 0.727

3. Liquid Phase standard heat of combustion (enthalpy) (kJ·mol-1): -3804.35

4. Melting point (ºC): -76

5. Boiling point (ºC, normal pressure): 68-69

6. Liquid phase standard claims heat (enthalpy) (kJ·mol-1): 14.14

7. Refractive index: 1.438

8. Flash point (ºF): -8

9. Liquid phase standard hot melt (J·mol-1 ·K-1): 180.1

10. Gas phase standard combustion heat (enthalpy) (kJ·mol-1): -3835.31

11. Gas phase standard claimed heat (enthalpy) (kJ·mol-1): 45.10

12. Gas phase standard entropy (J·mol-1 ·K-1): 340.41

13. Gas phase standard free energy of formation (kJ·mol-1): 148.7 p>

14. Gas phase standard hot melt (J·mol-1·K-1): 126.5

15. Critical pressure ( KPa): Undetermined

16. Log value of oil-water (octanol/water) partition coefficient: Undetermined

17. Explosion upper limit (%, V/V): Undetermined

18. Lower explosion limit (%, V/V): Undetermined

19. Solubility: soluble in water

Toxicological data

None yet

Ecological data

This substance may be harmful to the environment, and special attention should be paid to water bodies.

Molecular structure data

1. Molar refractive index: 28.98

2. Molar volume (cm3/mol): 117.3

3. Isotonic specific volume (90.2K ): 241.2

4. Surface tension (dyne/cm): 17.8

5. Dielectric constant (F/m): 2.13

6. Extreme Chemical rate (10-24cm3): 11.48

Compute chemical data

1. Reference value for hydrophobic parameter calculation (XlogP): 3.1

2. Number of hydrogen bond donors: 0

3. Number of hydrogen bond acceptors: 0

4. Number of rotatable chemical bonds: 1

5. Number of tautomers: none

6. Topological molecule polar surface area 0

7. Number of heavy atoms: 6

8. Surface charge: 0

9. Complexity: 66

10. Number of isotope atoms: 0

11. ConfirmNumber of atomic stereocenters: 0

12. Uncertain number of atomic stereocenters: 0

13. Determined number of chemical bond stereocenters: 0

14. Number of uncertain chemical bond stereocenters: 0

15. Number of covalent bond units: 1

Properties and stability

Use and store according to specifications, no decomposition will occur, and avoid contact with oxides

Storage method

Stored in a cool, dry and well-ventilated warehouse. Keep away from fire and heat sources. Protect from direct sunlight. The packaging is sealed. They should be stored separately from acids and food chemicals, and avoid mixed storage. Suitable materials should be available in the storage area to contain spills.

Synthesis method

1. Obtained from pinacol (tetramethylethylene glycol) catalyzed by hydrobromic acid dehydration. Slowly heat pinacol and 48% hydrobromic acid, and collect the distillate until it reaches 95°C. Take the supernatant liquid and wash it with water containing a small amount of hydroquinone, dry it with anhydrous calcium chloride, and then fractionate it to obtain the finished product.

2. Preparation method:

  Add 177g (1.5mol) of dry pinacol (2), 5mL azeotropic hydrobromic acid (47% ~ 48%), and a few grains of zeolite into the reaction bottle. Install a higher-efficiency fractionating column, and install a condenser and receiving device on the fractionating column. Heat the reaction bottle in an oil bath and control the elution speed to about 20 to 30 drops per minute. Slowly collect the distillate until the temperature at the top of the fractionation column reaches 95°C, which takes about 1 hour. Separate the upper layer of the distillate species and wash it twice with water. Add 0.25g of phenol as a polymerization inhibitor, and dry with anhydrous calcium chloride overnight. Fractionate, collect the fractions between 69 and 70.5°C , and obtain 70g of 2,3-dimethyl-1,3-butadiene (1), yield 57 %. Note: ① During distillation , the final fraction at 105-106°C is collected, which is pinacolone, about 35g. ② The product is easy to polymerize, so about 0.3% phenol should be added as a polymerization inhibitor, and it should be sealed and stored at low temperature. [1]

Purpose

Used in the manufacture of synthetic rubber and polymers.

Hexachloro-1,3-butadiene
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Hexachloro-1,3-butadiene structural formula

Hexachloro-1,3-butadiene structural formula

Structural formula

Business number 01YE
Molecular formula C4Cl6
Molecular weight 260
label

1,1,2,3,4,4-hexachloro-1,3-butadiene,

perchloroprene,

Perchlorobutadiene,

herbicide

Numbering system

CAS number:87-68-3

MDL number:MFCD00000836

EINECS number:201-765-5

RTECS number:EJ0700000

BRN number:1766570

PubChem number:24869044

Physical property data

1. Properties: colorless to light yellow liquid, slightly special smell, toxic

2. Density (g/mL, 20/4℃): 1.6813

3 . Relative vapor density (g/mL, air=1): 8.99

4. Melting point (ºC): -20

5. Boiling point (ºC, normal pressure): 212

6. Refractive index at room temperature (n25): 1.5535

7. Refractive index (n20ºC): 1.5552

8. Liquid The phase standard claims heat (enthalpy) (kJ·mol-1): -24.48

9. Specific rotation (º): +17.5 ~ +18.5

10. Liquid phase standard hot melt (J·mol-1·K-1): 148.7

11. Vapor pressure (kPa, 25ºC): 3.99×10-2

12. Saturated vapor pressure (kPa, 60ºC): Undetermined

13. Heat of combustion (KJ/mol ): Undetermined

14. Critical temperature (ºC): Undetermined

15. Critical pressure (KPa): Undetermined

16. Oil and water (polymer) Log value of the partition coefficient (alcohol/water): Undetermined

17. Explosion upper limit (%, V/V): Undetermined

18. Explosion lower limit (%, V/V ): Undetermined

19. Solubility: Miscible with ethanol and ether, insoluble in water.

Toxicological data

Toxic if taken orally and harmful in contact with skin.

Ecological data

None yet

Molecular structure data

1. Molar refractive index: 49.16

2. Molar volume (cm3/mol): 149.3

3. Isotonic specific volume (90.2K): 381.1

4. Surface tension (dyne/cm): 42.4

5. Polarizability (10-24cm3): 19.68

Compute chemical data

1. Reference value for hydrophobic parameter calculation (XlogP): None

2. Number of hydrogen bond donors: 0

3. Number of hydrogen bond acceptors: 0

4. Number of rotatable chemical bonds: 1

5. Number of tautomers: none

6. Topological molecule polar surface area 0

7. Number of heavy atoms: 10

8. Surface charge: 0

9. Complexity: 160

10. Number of isotope atoms: 0

11. Determine the number of atomic stereocenters: 0

12. Uncertain atomic stereocentersQuantity: 0

13. Determine the number of stereocenters of chemical bonds: 0

14. Uncertain number of stereocenters of chemical bonds: 0

15. Covalent bonds Number of units: 1

Properties and stability

When exposed to open fire or high heat, it will decompose and release toxic gases.

Storage method

This product should be sealed and stored in a cool, dry place.

Synthesis method

None yet

Purpose

It is used as a solvent, heat carrier, heat exchange agent, liquid for hydraulic systems, lotion, and also used in the synthetic rubber industry. It is also used as a solvent for infrared and nuclear magnetic resonance spectroscopy.

1,3-Butadiene 1,3-Butadiene
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1,3-butadiene structural formula

Structural formula

Business number 02UD
Molecular formula C4H6
Molecular weight 54.09
label

butadiene,

diethylene,

vinyl vinyl,

Butadiene,

United ethylene,

Butadiene,

Butadiene residue,

Two ethylene,

Vinyl ethylene,

bivinyl,

Erythrene,

Aliphatic hydrocarbons

Numbering system

CAS number:106-99-0

MDL number:MFCD00008659

EINECS number:203-450-8

RTECS number:EI9275000

BRN number:605258

PubChem number:24857754

Physical property data

1. Characteristics: slightly aromatic colorless gas. [11]

2. Melting point (℃): -108.9[12]

3. Boiling point (℃): -4.4[13]

4. Relative density (water = 1): 0.62[14]

5. Relative Vapor density (air=1): 1.87[15]

6. Saturated vapor pressure (kPa): 245.27 (21℃)[16]

7. Heat of combustion (kJ/mol): -2541.0[17]

8. Critical temperature (℃): 161.8[18 ]

9. Critical pressure (MPa): 4.33[19]

10. Octanol/water partition coefficient: 1.99[20]

11. Flash point (℃): -76[21]

12. Ignition temperature (℃) :415[22]

13. Explosion upper limit (%): 16.3[23]

14. Explosion lower limit (%) %): 1.1[24]

15. Solubility: Insoluble in water, soluble in most organic solvents such as acetone, benzene, acetic acid, and esters. [25]

16. Solubility parameter (J·cm-3)0.5:15.607

17.van der Waals area (cm2·mol-1): 5.880×109

18. van der Waals volume (cm3·mol-1): 40.820

19. Critical density (g·cm-3 ): 0.245

20. Critical volume (cm3·mol-1): 221

21 .Critical compression factor: 0.270

22. Eccentricity factor: 0.193

23. Gas phase standard combustion heat (enthalpy) (kJ·mol-1): -2541.49

24. Gas phase standard claimed heat (enthalpy) (kJ·mol-1): 110.0

25. Phase standard entropy (J·mol -1·K-1): 278.78

26. Gas phase standard free energy of formation (kJ·mol-1 ): 150.6

27. Gas phase standard hot melt (J·mol-1·K-1): 79.88

28. Liquid phase standard combustion heat (enthalpy) (kJ·mol-1): -2519.4

29. Liquid phase standard claimed heat (enthalpy) (kJ·mol-1): 87.9

30. Liquid phase standard entropy (J·mol-1·K-1): 199.07

31. Liquid phase standard formation free energy (kJ·mol-1)mages.basechem.org/internal/day_101009/201010090931194593.gif” alt=”” /> 

2. Extraction method The C4 fraction produced by the ethylene cracking unit is extracted by solvent extraction method. According to the different solvents used, it can be divided into acetonitrile extraction method and N, N-dimethylformamide extraction method. (1) Acetonitrile extraction method uses acetonitrile as the extractant. The C4 fraction produced by the ethylene cracking unit is sent to Enter the butadiene extractive distillation tower, add acetonitrile at the top, and butene and a small amount of butane are discharged from the top of the tower; butadiene, alkynes and acetonitrile enter the first desorption tower, and the acetonitrile is desorbed and returned to the extractive distillation tower. Butadiene and alkynes enter the second extraction tower, and acetonitrile is added to the top of the tower. Butadiene comes out from the top of the tower and enters the water washing tower, and then undergoes distillation and dehydration to obtain polymer grade butadiene. (2) N,N-Dimethyl The methyl formamide extraction method uses N, N-dimethylformamide as the extractant. The C4 fraction is extracted twice and distilled twice to prepare qualified butadiene products. The first extraction removes more than butadiene. Impurities that are difficult to dissolve in N, N-dimethylformamide, such as butene and butane; the second extraction removes impurities that are more soluble in N, N-dimethylformamide than butadiene, such as vinyl Acetylene. The first distillation removes components lighter than butadiene, such as methyl acetylene; the second distillation removes components heavier than butadiene, such as cis-2-butene, 1,2- Butadiene, C5 fraction and high boiling point products, finally obtain more than 99.5% of 1,3-butadiene finished product.

3. Preparation from petroleum gas in large quantities, that is, from butene or butene-butadiene Catalytic dehydrogenation of alkane mixture can also be obtained directly by cracking naphtha and light oil.

Purpose

1. In terms of synthetic rubber, it is used to produce styrene-butadiene rubber, butadiene rubber, ethylene-propylene rubber, nitrile rubber, chloroprene rubber, styrene-butadiene latex, etc.; in terms of synthetic resin, it is used to produce ABS, BS, SBS, MBS, epoxidized polybutadiene resin, liquid butadiene oligomer, etc.; in organic chemical production, used to synthesize sulfolane, 1,4-butanediol, adiponitrile, anthraquinone, 1 , 4-hexadiene, cyclooctadiene, cyclododecatriene, etc.

2. Used to manufacture styrene-butadiene rubber, butadiene rubber, butadiene rubber, nitrile rubber and ABS resin, etc. It is an important monomer for synthetic rubber and synthetic resin, and also a raw material for the preparation of butanol and butanediol. Emulsion polymerization with styrene, acrylonitrile, etc. can produce styrene-butadiene latex and nitrile-butadiene latex used in adhesives and coatings; it can also be used as raw materials for manufacturing plasticizers, curing agents, and flame retardants.

3. Butadiene is a reagent widely used in organic synthesis. It is a synthetic intermediate and Diels-Alder reaction for elastic polymers, polybutadiene, polychloroprene and nylon. diene reagents in . It is mainly used in the synthesis of six-membered carbocyclic and heterocyclic compounds in organic synthesis [1]. Lewis acid, such as: AlCl3, SnCl4, BF3, FeCl3 or TiCl4 , which is beneficial to the cycloaddition reaction of 1,3-butadiene and α, β-unsaturated carbonyl compounds. Under the action of AlCl3, cycloenone (n =2,3,4) undergoes cycloaddition reaction with butadiene to generate the expected cis adduct (Formula 1)[2]. When R = H, the cis adduct is partially or completely isomerized into the more stable trans isomer.

Asymmetric Diels- Alder reactionThe cycloaddition reaction of 1,3-butadiene and methacrylate dienophile using camphoractimide in the presence of Lewis acid produces cyclohexene carboxylate adduct. The larger stereocoordinated metal will cause the methacrylate to produce the S-trans conformation (Formula 2)[3].

With 1,3-D In the cycloaddition reaction of dienes, the addition reaction using sugar as a chiral auxiliary compound has stereoselectivity [4]. The reaction of 3-O-acryloyldihydro-L-rhamnose (R = pivaloyl) gives (R)-cycloadduct (R /S=95:5) (Formula 3).

Chiral titanium catalysts are used in Asymmetric Diels-Alder reaction of 1,3-butadiene. Under better asymmetric induction, other dienes can undergo stereoselective cycloaddition reactions. This catalyst can assist the exchange of the alkoxy group of the compound through diisopropoxytitanium dichloride and tartaric acid derivatives, and treat it with a cycloaddition compound for 24 hours at room temperature to obtain cyclohexene carboxylate with an optical purity of 93% ( Formula 4)[5].

Butadiene can be passed through Diels- Alder reaction synthesizes the thiopyran ring structure in the molecule (Formula 5)[6]. The Diels-Alder cycloaddition reaction of disulfide methyl phosphate and 1,3-butadiene is a new synthesis method of thiopyran derivatives. Lewis acid catalyst controls the reaction rate and selectivity (Formula 6)[7].

New diene affinity compounds 2-(Trimethylsilyl)vinyl-9-BBN easily undergoes Diels-Alder reaction with butadiene. After the trihydroxyborane of the intermediate is oxidized, 2-(trimethylsilyl)cyclic ring is obtained. Hexenol (Formula 7)[8].

1,3-Butadiene Reacting with cyanocuprate reagent (PhMe2SiCu- CNLi), copper attacks the carbon atoms of the olefin end chain to generate an intermediate product, which is then reduced and eliminated, and copper (I) captures the anion. 1 , 4-addition reaction to generate cis product (Formula 8). When CO2 is used as the nucleophile for this reaction, a 1,2-addition reaction occurs (Formula 9)[9].

In the catalyst Pd(Ac)2, dichlorosilane and 1,3-butadiene only undergo a cyclization reaction to generate 2,5-divinylsilane (Formula 10, Formula 11)[10].

4. Used for synthetic rubber, ABS resin, acid anhydride, organic synthesis intermediates, etc. [42]

0208/201202081426548423.gif” alt=”” />

Reaction of 1,3-butadiene with cyanocuprate reagent (PhMe2SiCu- CNLi), copper Attack the carbon atom of the end chain of the olefin to generate an intermediate product, which is then reduced and eliminated. Copper (I) captures the anion and undergoes a 1,4-addition reaction to generate a cis product (Formula 8). And with CO2If this reaction is carried out as a nucleophile, a 1,2-addition reaction will occur (Formula 9)[9].

Under the catalysis of the catalyst Pd(Ac)2, dichlorosilane and 1 , 3-butadiene only undergoes cyclization reaction to generate 2,5-divinylsilane (Formula 10, Formula 11)[10].

4. Used in synthetic rubber, ABS resin, acid anhydride, organic synthesis intermediates, etc.[42]

BDMAEE:Bis (2-Dimethylaminoethyl) Ether

CAS NO:3033-62-3

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