Ethyl Chloroacetate


  • English nameEthyl Chloroacetate
  • CAS number105-39-5
  • Molecular formulaC4H7ClO2
  • Molecular weight122.551
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  • appearancecolourless liquid
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Quality Factory Sells Top Purity 99% Ethyl Chloroacetate 105-39-5 with Safe Delivery

  • Molecular Formula:C4H7ClO2
  • Molecular Weight:122.551
  • Appearance/Colour:colourless liquid 
  • Vapor Pressure:4.39mmHg at 25°C 
  • Melting Point:-27 ºC 
  • Refractive Index:1.420 - 1.422 
  • Boiling Point:147.6 ºC at 760 mmHg 
  • Flash Point:65.6 ºC 
  • PSA:26.30000 
  • Density:1.119 g/cm3 
  • LogP:0.78830 

Ethyl chloroacetate(Cas 105-39-5) Usage

InChI:InChI=1/C4H7ClO2/c1-2-7-4(6)3-5/h2-3H2,1H3

105-39-5 Relevant articles

Enhanced Electrophilicity of Heterobimetallic Bi-Rh Paddlewheel Carbene Complexes: A Combined Experimental, Spectroscopic, and Computational Study

Collins, Lee R.,Van Gastel, Maurice,Neese, Frank,Fürstner, Alois

, p. 13042 - 13055 (2018)

Dirhodium paddlewheel complexes are indi...

Microwave synthesis of chloroacetic acid with acetic anhydride catalyzing chlorination of acetic acid

Wang, Li-Sheng,Song, Guo-Qiang,Meng, Ying,Li, Shou-Gao,Li, Fu-Xiang

, p. 8997 - 8999 (2013)

In this paper, the chloroacetic acid has...

Discovery of novel triazolophthalazine derivatives as DNA intercalators and topoisomerase II inhibitors

Sakr, Helmy,Ayyad, Rezk R.,El-Helby, Ali A.,Khalifa, Mohamed M.,Mahdy, Hazem A.

, (2021)

A new series of triazolophthalazine deri...

Activation reactions of 1,1-dialkoxoalkanes and unsaturated O-donors by titanium tetrafluoride

Marchetti, Fabio,Pampaloni, Guido,Biancalana, Lorenzo

, p. 135 - 139 (2012)

The reactivity of TiF4 with a variety of...

An efficient chemoenzymatic synthesis of the bactericide lapyrium chloride

Rustoy, Eduardo M.,Baldessari, Alicia

, p. 4628 - 4632 (2005)

An efficient route for large-scale prepa...

Catalytic esterifications of carboxylic acids and alcohols by sodium bisulfate monohydrate

Li, Yi-Qun

, p. 3901 - 3903 (1999)

The efficient esterification of primary ...

Using remote substituents to control solution structure and anion binding in lanthanide complexes

Tropiano, Manuel,Blackburn, Octavia A.,Tilney, James A.,Hill, Leila R.,Placidi, Matteo P.,Aarons, Rebecca J.,Sykes, Daniel,Jones, Michael W.,Kenwright, Alan M.,Snaith, John S.,Sorensen, Thomas Just,Faulkner, Stephen

, p. 16566 - 16571 (2013)

A study of the anion-binding properties ...

A simple criterion for gas chromatography/mass spectrometric analysis of thermally unstable compounds, and reassessment of the by-products of alkyl diazoacetate synthesis

Kornilova, Tatiana A.,Ukolov, Anton I.,Kostikov, Rafael R.,Zenkevich, Igor G.

, p. 461 - 466 (2013)

Rationale: A principal limitation of gas...

REDUCTIVE DEHALOGENATION OF α-HALOGENATED CARBONYL AND CYANO COMPOUNDS WITH THE HEXAMETHYLDISILANE/TETRAKIS(TRIPHENYLPHOSPHINE)PALLADIUM SYSTEM

Urata, Hisao,Suzuki, Hiroharu,Moro-Oka, Yoshihiko,Ikawa, Tsuneo

, p. 367 - 374 (1982)

Treatment of α-halogenated carbonyl or c...

CHLORINATING PROPERTIES OF THE TRIMETHYLCHLOROSILANE-POTASSIUM BROMATE-DMF SYSTEM

Zav'yalov, S. I.,Sitkareva, I. V.,Ezhova, G. I

, p. 356 - 358 (1992)

β-Dicarbonyl compounds such as ethyl ace...

Inhibition of acetylcholinesterase by coumarin-linked amino acids synthetized via triazole associated with molecule partition coefficient

De Sousa, Bianca L.,Leite, Jo?o P.V.,Mendes, Tiago A.O.,Varej?o, Eduardo V.V.,Chaves, Anna C.S.,da Silva, Júnio G.,Agrizzi, Ana P.,Ferreira, Priscila G.,Pilau, Eduardo J.,Silva, Evandro,dos Santos, Marcelo H.

, p. 652 - 664 (2021/02/16)

A previous study for the identification ...

New Diesters Derived from Piperine: In silico Study and Evaluation of Their Antimicrobial Potential

Barbosa-Filho, José M.,Brand?o, Maria Cláudia R.,Lima, Edeltrudes O.,Lira, Bruno F.,Neto, Hermes D.,Souza, Helivaldo D. S.,Trindade, Emmely O.,de Athayde-Filho, Petr?nio F.

, p. 1668 - 1678 (2020/10/09)

Piperine, previously extracted from blac...

Synthesis, in silico Study and Antimicrobial Evaluation of New Diesters Derived from Phthaloylglycine

Alves, Francinara S.,Barbosa-Filho, José M.,Cordeiro, Laísa V.,Huang, Min-Fu N.,Lima, Edeltrudes O.,Neto, Hermes Diniz,Souza, Helivaldo D. S.,Trindade, Emmely O.,de Athayde-Filho, Petr?nio F.,de Lima, Priscila S. V.,de Oliveira, Rafael F.,de Sousa, Abra?o P.

, p. 953 - 962 (2020/10/14)

New diesters derived from phthaloylglyci...

105-39-5 Process route

Ethyl trichloroacetate
515-84-4

Ethyl trichloroacetate

methylene chloride
74-87-3

methylene chloride

dichloromethane
75-09-2

dichloromethane

chloroacetic acid ethyl ester
105-39-5

chloroacetic acid ethyl ester

ethyl 1,1-dichloroacetate
535-15-9

ethyl 1,1-dichloroacetate

Conditions
Conditions Yield
With hydrogen cation; tetranormalbutyl ammonium fluoride; for 0.166667h; Product distribution; Ambient temperature; equilibrium; products determined by GC-MS;
Ethyl trichloroacetate
515-84-4

Ethyl trichloroacetate

acetaldehyde
75-07-0,9002-91-9

acetaldehyde

ethyl acetate
141-78-6

ethyl acetate

chloroacetic acid ethyl ester
105-39-5

chloroacetic acid ethyl ester

ethyl 1,1-dichloroacetate
535-15-9

ethyl 1,1-dichloroacetate

Conditions
Conditions Yield
at 320 ℃;

105-39-5 Upstream products

  • 623-73-4
    623-73-4

    diazoacetic acid ethyl ester

  • 507-20-0
    507-20-0

    tertiary butyl chloride

  • 67-56-1
    67-56-1

    methanol

  • 42345-82-4
    42345-82-4

    (E)-1,2-dichloro-1-ethoxy-ethene

105-39-5 Downstream products

  • 2144-56-1
    2144-56-1

    2-Aziridino-essigsaeure-ethylester

  • 23853-10-3
    23853-10-3

    piperidin-1-yl-acetic acid ethyl ester

  • 3235-82-3
    3235-82-3

    N-morpholylacetic acid ethyl ester

  • 68555-62-4
    68555-62-4

    2-methyl-4-(2,6,6-trimethyl-cyclohex-2-enyl)-crotonaldehyde

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