ε-caprolactone

Structural formula
General
Surname	ε-caprolactone
other names	ε-lactone; 6-hydroxyhexanoic acid lactone; 6-hydroxycaproic acid lactone; 6-caprolactone; Hexanolactone; 6-hexanolide; 2-oxepanone; Hexanoic acid-epsilon-lactone; Caprolactone;
Molecular formula	C 6 H 10 O 2
Brief description	colorless liquid
External identifiers / databases
EC number	207-938-1
ECHA InfoCard	100.007.217
PubChem	10401
Wikidata	Q288104
properties
Molar mass	114.14 g mol −1
Physical state	liquid
density	1.08 g cm −3 (20 ° C)
Melting point	−1.5 ° C
boiling point	235 ° C
Vapor pressure	1.3 Pa (20 ° C)
solubility	miscible with water
Refractive index	1.463 (20 ° C)
safety instructions
GHS labeling of hazardous substances Caution
H and P phrases	H: 319
	P: 280-305 + 351 + 338-337 + 313
Toxicological data	5990 mg · kg -1 ( LD 50 , rabbit , transdermally )
	As far as possible and customary, SI units are used. Unless otherwise noted, the data given apply to standard conditions . Refractive index: Na-D line , 20 ° C

ε-caprolactone , also ε-lactone or caprolactone, is a chemical compound from the group of cyclic carboxylic acid esters , which are referred to as lactones . Caprolactone has a seven-membered ring with six carbon atoms, like the hexanoic acid on which caprolactone is based, which is also called caproic acid .

Manufacturing

There are a number of ways to synthesis known of caprolactone, which can be divided into two groups. On the one hand, the production starting from open-chain compounds, such as. B. derivatives of hexane possible, on the other hand the oxidative ring expansion of cyclic ketones .

Starting from open-chain compounds, for example 6-hydroxyhexanoic acid , 1,6-hexanediol or adipic acid can be used.

Starting from cyclic compounds , caprolactone can be produced by a Baeyer-Villiger oxidation of cyclohexanone with peracids such as peracetic acid , perbenzoic acid or m -chloroperbenzoic acid. The oxidation can, however, also be brought about by means of catalysts using oxygen .

properties

Caprolactone is a colorless liquid that solidifies at −1.5 ° C and boils at 235 ° C. It has a dynamic viscosity of 6.67 mPa‣s at 20 ° C. Their flash point is 127 ° C, their ignition temperature 204 ° C. In the range from 1.2 to 9 percent by volume, it forms explosive mixtures with air . It starts to decompose at temperatures above 220 ° C.

use

Caprolactone is used as a raw material for the production of polycaprolactone , a plastic from the group of thermoplastics .

Production of polyesters from ε-caprolactone

Caprolactone can easily be opened by Lewis acids or Brønsted acids , which enables the production of hexane derivatives.

Individual evidence

↑ ^a ^b ^c ^d ^e ^f ^g ^h Entry on epsilon-caprolactone in the GESTIS substance database of the IFA , accessed on January 10, 2017(JavaScript required) .

↑ ε-Caprolactone data sheet from Sigma-Aldrich , accessed on April 26, 2011 ( PDF ).

↑ ^a ^b ^c ^d ^e data sheet ε-caprolactone (PDF) at Merck , accessed on 27 February 2010 .

^ ^A ^b F. J. van Natta, JW Hill, WH Carothers: Studies of Polymerization and Ring Formation. ε-Caprolactone and its Polymers , in: J. Am. Chem. Soc. , 1934 , 56 , p. 455.

↑ W. Reppe: ethynylation VI , in: Liebigs Ann. , 1955 , 596 , 1, pp. 158-224.

^ U. Matteoli, G. Menchi, M. Bianchi, P. Frediani, F. Piacenti: Gazzetta Chimica Italiana , 1985 , 115 , pp. 603-606.

↑ PS Starcher, B. Phillips: Synthesis of Lactones , in: J. Am. Chem. Soc. , 1958 , 80 , pp. 4079-4082.

^ SL Friess: Reactions of Per Acids. II. The Reaction of Perbenzoic Acid with Simple Cyclic Ketones. Kinetic Studies , in: J. Am. Chem. Soc. , 1949 , 71 , pp 2571-2572.

↑ S. Horvat, P. Karallas, JM White: Reactions of β-trimethylstannylcyclohexanones with peracids: investigations into the stannyl-directed Baeyer-Villiger reaction , in: J. Chem Soc, Perkin Trans. 2.. , 1998 , 10 , S 2151-2154.

↑ C. Bolm, G. Schlingloff, K. Weickhardt: Use of molecular oxygen in the Baeyer-Villiger oxidation the influence of metal catalysts , in: Tetrahedron Letters , 1993 , 34 , pp 3405-3408.

↑ S.-I. Murahashi, Y. Oda, T. Naota: Fe ₂ O ₃ -catalyzed baeyer-villiger oxidation of ketones with molecular oxygen in the presence of aldehydes , in: Tetrahedron Letters , 1992 , 33 , pp. 7557-7560.

[GESTIS-1] ↑ ^a ^b ^c ^d ^e ^f ^g ^h Entry on epsilon-caprolactone in the GESTIS substance database of the IFA , accessed on January 10, 2017(JavaScript required) .