JP2019172709A - COMPOSITION CONTAINING C8F17Br AND METHOD FOR PRODUCING C8F17Br - Google Patents

Abstract

To provide a composition containing PFOB, with a smaller PFOA content than that of conventional PFOB, having less adverse effect on the environment and a method for producing PFOB.SOLUTION: A composition containing CFBr, further contains CFCOOH, and the CFCOOH content is 25 ppb or less relative to the total weight of CFBr. A method for producing CFBr has the steps of obtaining CFBr by the reaction between CFI and a brominating agent, and reducing the CFCOOH content to 25 ppb or less relative to the total weight of CFBr by alkali cleaning of the obtained CFBr.SELECTED DRAWING: None

Description

The present invention relates to _a process for the preparation of compositions and _C 8 _F 17 Br including C _{8 F} 17 Br.

Perfluorooctyl bromide (abbreviated as PFOB) represented by the general formula C ₈ F ₁₇ Br is known as a compound having X-ray contrast and MR contrast capabilities. It is known that it can be used as a body or the like.

It is known that PFOB can be produced by various methods. For example, a method of obtaining PFOB by reacting a compound represented by the general formula C ₈ F ₁₇ I (n-perfluorooctyl iodide, abbreviated as PFOI) with a brominating agent such as bromine in a gas phase (for example, Patent Document 1), or a method for obtaining PFOB by photochemical bromination of PFOI (for example, Patent Document 2) is known.

JP-A-3-287551 JP-A-6-234671

However, when the inventors of the present invention have studied in detail the method for producing PFOB using PFOI as a raw material, the decomposition of the PFOI of the raw material occurs due to the action of light or heat at least under the condition that water and / or oxygen is present. It has been found that there is a problem that perfluorooctanoic acid (PFOA; C ₇ F ₁₅ COOH) is generated. When PFOB is produced using such a raw material mixed with PFOA, PFOA is likely to be mixed into the product and the purity of PFOB is likely to be lowered. In addition, in order to reduce the amount of PFOA mixed into the PFOB as much as possible, for example, a process for refining the PFOI is required, and it is necessary to strictly control the storage method and storage time of the PFOI as a raw material. It was. Furthermore, since PFOA is recognized as a compound that is likely to adversely affect the environment, it can be said that it is highly important to provide PFOB with a smaller amount of PFOA.

  The present invention has been made in view of the above, and an object of the present invention is to provide a composition containing PFOB with a low content of PFOA as an impurity and a method for producing the PFOB.

  As a result of intensive studies to achieve the above object, the present inventors have found that the above object can be achieved by adopting a cleaning method that efficiently removes PFOA from PFOB, and the present invention has been completed. It was.

That is, the present invention includes, for example, the inventions described in the following sections.
Item 1. A composition comprising C ₈ F ₁₇ Br, comprising:
Further containing C ₇ F ₁₅ COOH,
Is 25ppb or less relative to the total weight of the content of C ₇ F ₁₅ COOH is _C 8 _F 17 Br, composition.
Item 2. A method for producing C ₈ F ₁₇ Br, comprising:
Obtaining C ₈ F ₁₇ Br by reaction of C ₈ F ₁₇ I with a brominating agent; and
Step of reducing below 25ppb the content of _C 7 _F 15 COOH relative to the total weight of the _C 8 _F 17 Br by the resulting _C 8 _F 17 Br alkali washing,
A manufacturing method comprising:
Item 3. The said alkali washing | cleaning is a manufacturing method of Claim 2 using the alkaline solution whose density | concentration is 0.01 to 98 weight%.

The composition containing C ₈ F ₁₇ Br (PFOB) of the present invention has a low content of C ₇ F ₁₅ COOH (PFOA), a high purity of PFOB, and hardly adversely affects the environment.

  In the method for producing PFOB of the present invention, the content of PFOA can be easily reduced to 25 ppb or less with respect to the total weight of PFOB, and high-purity PFOB can be produced by a simple process.

  Hereinafter, embodiments of the present invention will be described in detail. In the present specification, the expressions “containing” and “including” include the concepts of “containing”, “including”, “consisting essentially of”, and “consisting only of”.

<1. Composition containing C ₈ F ₁₇ Br>
The composition containing C ₈ F ₁₇ Br of the present invention further contains C ₇ F ₁₅ COOH, and the content of C ₇ F ₁₅ COOH is 25 ppb or less based on the total weight of C ₈ F ₁₇ Br. C ₇ F ₁₅ COOH can be an impurity component in the composition, as will be described later. Alternatively, C ₇ F ₁₅ COOH may be a by-product in the production of, for example, C ₈ F ₁₇ Br, and C ₇ F ₁₅ COOH may be intentionally added to the composition, for example. May be a component.

In this specification, C ₈ F ₁₇ Br (perfluorooctyl bromide) is abbreviated as “PFOB”, and C ₇ F ₁₅ COOH (perfluorooctanoic acid) is abbreviated as “PFOA”. A compound represented by the following general formula C ₈ F ₁₇ I (n-perfluorooctyl iodide) is abbreviated as “PFOI”.

In the composition of the present invention, the method for adjusting the content of PFOA to 25 ppb or less with respect to the total weight of PFOB is not particularly limited, and various methods can be widely adopted. In particular, the purification step described in “2. Method for producing C ₈ F ₁₇ Br” described later can be suitably employed. In this case, although PFOI containing PFOA is used as a raw material, A small amount and high purity PFOB can be obtained, and the content of PFOA can be easily reduced to 25 ppb or less based on the total weight of PFOB.

  In the composition of the present invention, the upper limit of the content of PFOA is 20 ppb, 15 ppb, 10 ppb, 5 ppb, 3 ppb, 2 ppb, 1 ppb, 0.5 ppb, 0.2 ppb, 0.1 ppb, 0 with respect to the total weight of PFOB. .05 ppb, preferably 0.01 ppb. Furthermore, in the composition of the present invention, the upper limit of the content of PFOA may be 0.001 ppb with respect to the total weight of PFOB.

  In the composition of the present invention, when the content of PFOA exceeds 25 ppb with respect to the total weight of PFOB, PFOA may adversely affect the environment, which is not preferable because the use of PFOB is limited.

  It is considered that there are various causes that PFOA can be contained as impurities in PFOB. Especially, when the raw material used when manufacturing PFOB is PFOI, it is easy to contain many PFOA. Because PFOI is a compound that is unstable to light and heat, it reacts with oxygen or oxygen and / or water present in the air by the action of light or heat or both light and heat, and PFOI decomposes into PFOA. It is because it is easy to do. Particularly when oxygen and / or moisture are present, PFOI tends to decompose into PFOA.

  The composition of the present invention can contain compounds other than PFOB, for example, known additives and the like, as long as the effects of the present invention are not inhibited. When the composition of the present invention contains a compound other than PFOB, etc., PFOB can be contained in an amount of 50% by weight or more, preferably 80% by weight or more, based on the total weight of the composition of the present invention, and 90% by weight. % Or more is more preferable, and 99% by weight or more is particularly preferable. The composition of the present invention may be formed of only PFOB containing 25 ppb or less of PFOA.

The method for preparing the composition of the present invention is not particularly limited. For example, the composition of the present invention can be prepared by adopting a method for producing C ₈ F ₁₇ Br described later.

<2. Production Method of C ₈ F ₁₇ Br>
The method for producing C ₈ F ₁₇ Br (PFOB) of the present invention is not particularly limited.

For example, the method for producing the PFOB of the present invention is as follows.
Obtaining C ₈ F ₁₇ Br by reaction of C ₈ F ₁₇ I with a brominating agent; and
The resulting _C 8 _F 17 Br can comprise the step of reducing below 25ppb the content of _C 7 _F 15 COOH relative to the total weight of the _C 8 _F 17 Br by alkali washing. The product obtained by this production method is PFOB (C ₈ F ₁₇ Br) containing PFOA (C ₇ F ₁₅ COOH) as an impurity. In particular, the content of PFOA is 25 ppb or less based on the total weight of PFOB. It is.

Hereinafter, the step of obtaining C ₈ F ₁₇ Br by reaction of C ₈ F ₁₇ I (PFOI) with a brominating agent is referred to as “reaction step”, and the resulting C ₈ F ₁₇ Br is washed with alkali to obtain C ₇ F ₁₅ The process of reducing the content of COOH to 25 ppb or less with respect to the total weight of C ₈ F ₁₇ Br is referred to as “purification process”.

  In the reaction step, PFOB is produced by the reaction of PFOI and a brominating agent.

It does not specifically limit as a brominating agent, For example, a bromine can be used and the compound which liberates bromine can also be used. Compounds that liberate bromine include IBr and IBr ₃ , N-bromosuccinimide, N-bromophthalimide, dibromoisocyanuric acid, 1,3-dibromo-5,5-dimethylhydantoin, N-bromoacetamide, N-bromosaccharin Etc. It is preferable to use bromine as the brominating agent.

  The PFOI used in the reaction step can be obtained by, for example, a known method, or a commercially available product can be used. As described above, PFOI contains PFOA as an impurity. For example, PFOI can be used after being purified in advance. However, in the production method of the present invention, PFOA which is an impurity can be easily removed in the purification step after the reaction step, so that it can be used for the reaction step without purifying PFOI in advance. Thereby, the whole manufacturing process can be made simpler.

  Moreover, PFOA which is a raw material is generated by the action of light and / or heat during storage. Therefore, it is important to strictly manage the storage conditions of PFOI. However, in the production method of the present invention, the amount of PFOA can be easily reduced by purification, and therefore it is not always necessary to strictly control the storage conditions of PFOI. .

  The ratio of PFOI and brominating agent used is not particularly limited. For example, the brominating agent can be 1 to 10 mol, preferably 1 to 5 mol per mol of PFOI.

  The reaction of PFOI and brominating agent can be performed in the presence of an inert gas such as nitrogen, for example.

  For the reaction of PFOI and brominating agent, for example, a method of heating a light-transmitting reaction vessel supplied with PFOI and dropping the brominating agent while irradiating light can be employed. For example, the method of heating without light irradiation is also employable. In the case of heating without light irradiation, for example, the reaction proceeds even when the heating temperature is about 140 ° C. A part of the brominating agent may be supplied in a divided manner such that a part of the brominating agent is supplied to the reaction vessel in advance and then the brominating agent is additionally supplied. The reaction of PFOI and brominating agent can also be carried out continuously. As the light transmissive reaction vessel, various glass reaction vessels such as a glass flask or a glass tube can be used. The reaction of PFOI and brominating agent can be performed in the gas phase.

  The heating temperature of the reaction vessel, that is, the reaction temperature is not particularly limited, and is preferably, for example, 80 to 180 ° C. at which PFOI is refluxed, and particularly preferably 130 to 160 ° C. The reaction time of PFOI and a brominating agent is not specifically limited.

  In the reaction of PFOI and brominating agent, when light is irradiated, light having a wavelength of 1 μm or less (preferably 0.2 to 0.7 μm) such as visible light and ultraviolet light can be used.

  The product obtained by the reaction of PFOI and a brominating agent contains PFOB which is the target product. In the product, IBr and the like are also produced as a by-product. Furthermore, since PFOI is contained in PFOI as an impurity as described above, PFOA can also be contained in the product after the reaction. The product obtained in the reaction step is subjected to a purification step.

  In the purification step, the PFOB obtained in the reaction step is washed with alkali. In this purification step, the content of PFOA contained in the product can be reduced to 25 ppb or less with respect to the total weight of PFOB.

  The method of alkali cleaning is not particularly limited. For example, the alkali solution is added to the product and stirred, and then allowed to stand to separate into two layers, a layer containing the product and an alkali solution layer (sometimes called an alkali layer), The method of taking out the layer containing a product by liquid separation is mentioned. Thereby, PFOB which is a product can be obtained. In addition, after adding an alkaline solution to a product, the layer containing PFOB which is a product can also be obtained by distilling.

  A series of operations from adding an alkaline solution to liquid separation and taking out a layer containing a product is referred to as “alkali washing”.

  The alkali washing is preferably performed a plurality of times. In this case, the product is purified with higher purity, and in particular, the PFOI can be easily reduced to a desired amount. More specifically, it is preferable to repeat the alkali cleaning until the pH of the alkali layer after the alkali cleaning becomes 7 or more, preferably 8 or more, particularly preferably 10 or more.

  The kind of alkali used in the alkali cleaning is not particularly limited, and a wide variety of known bases can be used. Examples thereof include inorganic bases such as sodium hydroxide, potassium hydroxide, calcium hydroxide, sodium carbonate, potassium carbonate, calcium carbonate, ammonia, ammonium carbonate, sodium bicarbonate, potassium bicarbonate, and ammonium bicarbonate. In addition, as the alkali, organic bases such as organic amines, basic amino acids, and metal alkoxides can be used.

  When an alkaline solution is used in the alkaline cleaning, water, alcohol, or a mixed solvent thereof can be used as a solvent for the alkaline solution. Examples of the alcohol include lower alcohols such as methanol, ethanol and isopropanol.

  The concentration of the alkali solution used for the alkali cleaning is not particularly limited. Alkaline washing can use an alkaline solution having a concentration of 0.01 to 98% by weight, and 0.01 to 48% by weight in that the content of PFOA contained in the product can be more easily reduced. It is preferred to use some alkaline solution. The concentration of the alkaline solution is more preferably 25% by weight or less, further preferably 10% by weight or less, particularly preferably 5% by weight or less, and most preferably 4.5% by weight or less. preferable. The concentration of the alkaline solution is more preferably 1% by weight or more, and particularly preferably 2% by weight or more.

  In the alkaline washing in the purification step, PFOA contained in the product is removed, and IBr as a by-product can also be removed.

  After performing alkali washing, the product may be washed with a solution containing an inorganic salt, if necessary. Examples of inorganic salts include sodium chloride and potassium chloride. Thereby, the pH of the product after alkali washing can be adjusted, and moisture can also be removed.

  In the purification step, after the alkali treatment, the product can be further subjected to a drying treatment and a distillation treatment as necessary. A drying process can be performed by the method of adding a desiccant to a product, for example. The kind of desiccant is not specifically limited, For example, anhydrous magnesium sulfate can be mentioned. The distillation treatment can be performed after the drying treatment, for example. The method for the distillation treatment is not particularly limited, and known distillation methods can be widely employed.

  Through the purification step, PFOB is purified, and high-purity PFOB having PFOA contained as impurities of 25 ppb or less can be produced.

  In particular, in the production method of the present invention, although PFOB is produced using PFOI containing PFOA as a raw material, the amount of PFOA in the obtained PFOB is small, so that a highly pure PFOB can be obtained. it can. Further, in the production method of the present invention, the amount of PFOA can be easily reduced by purification, so that PFOI whose storage conditions are not strictly controlled can be used as a raw material.

  The PFOB obtained by the production method of the present invention can be suitably used, for example, as a raw material for preparing the composition containing the PFOB of the present invention. In particular, PFOB has less PFOA content than conventional PFOB, and thus hardly adversely affects the environment. Therefore, PFOB is not easily affected by environmental regulations.

  The composition containing the PFOB of the present invention and the PFOB obtained by the production method of the present invention make use of the characteristics of X-ray contrast and MR contrast of PFOB for various uses such as a diagnostic agent and a pharmaceutical intermediate. It can be preferably used.

  EXAMPLES Hereinafter, although an Example demonstrates this invention more concretely, this invention is not limited to the aspect of these Examples.

Example 1
1760 g of PFOI was supplied to the reaction vessel, the reaction vessel was heated to 140 to 142 ° C., and the PFOI in the reaction vessel was stirred. Next, 1000 to 1600 g of bromine was supplied to this reaction vessel in a plurality of times and heated to reflux to carry out bromination of PFOI.

  After completion of bromination, the reaction solution was cooled and the reaction solution was washed with alkali. In this alkali washing, first, about 0.5 L of an aqueous solution of sodium hydroxide having a concentration of 2 to 3% by weight is added to the obtained reaction solution and stirred. Thereafter, the stirring is stopped and the reaction vessel is allowed to stand to obtain a product. It separated into a layer containing sodium hydroxide and a layer containing aqueous sodium hydroxide, and the layer containing the product was extracted by liquid separation. This alkali washing was repeated until the pH of the aqueous sodium hydroxide layer exceeded 8.

  Thereafter, about 0.3 L of saline adjusted to 7 to 10% was added to the product for washing, and then the layer containing the product was taken out. About 20 g of anhydrous magnesium sulfate was added to the layer containing the extracted product and stirred. Then, the layer containing the said product was taken out by filtration, and 1500g of PFOB was obtained by distilling this.

  When the concentration of PFOA in the obtained PFOB was analyzed by LC-MS / MS, the concentration of PFOA was 5 ppb or less based on the total weight of PFOB.

(Example 2)
As a PFOI, 1500 g of PFOB was obtained in the same manner as in Example 1 except that the PFOI was changed to PFOI containing 350 ppm by weight.

  When the concentration of PFOA in the obtained PFOB was analyzed by LC-MS / MS, the concentration of PFOA was 5 ppb or less based on the total weight of PFOB.

Claims (3)

A composition comprising C ₈ F ₁₇ Br, comprising:
Further containing C ₇ F ₁₅ COOH,
Is 25ppb or less relative to the total weight of the content of C ₇ F ₁₅ COOH is _C 8 _F 17 Br, composition. A method for producing C ₈ F ₁₇ Br, comprising:
Obtaining C ₈ F ₁₇ Br by reaction of C ₈ F ₁₇ I with a brominating agent; and
Step of reducing below 25ppb the content of _C 7 _F 15 COOH relative to the total weight of the _C 8 _F 17 Br by the resulting _C 8 _F 17 Br alkali washing,
A manufacturing method comprising:   The said alkali washing | cleaning is a manufacturing method of Claim 2 using the alkali solution whose density | concentration is 0.01 to 98 weight%.