DE10324891A1 - Thiouronium or uronium salts with various anions, e.g. triflate or tetrakis-pentafluorophenyl-borate, used as ionic liquids, non-aqueous electrolytes, phase-transfer catalysts and surfactants - Google Patents

Abstract

New salts with thiouronium or uronium cations in which the positive charge is delocalized over several hetero-atoms. Thiouronium or uronium salts of formula (1) are new. [Image] X : O or S; R, R 0> : 1-20C alkyl, 2-20C alkenyl or alkynyl with one or more double bonds, or optionally unsaturated 3-7C cycloalkyl (optionally substituted with 1-6C alkyl groups), with the proviso that (a) R may also be hydrogen, (b) one or more of the groups R/R 0> may be partly or completely substituted with halogen or partly substituted with CN or NO 2 (but with no halogen in the alpha -position in R 0>), (c) R and R 0> may be linked together by a single or double bond and (d) one carbon or two non-adjacent carbons of one or more of the groups R/R 0> which are not directly adjacent to the hetero-atom may be replaced by -O-, -CO-, -COO-, -S-, -SO-, -SO 2-, -SO 3-, -N=, -N=N-, -NH-, -NR'-, -PR'-, -P(O)R'-, -P(O)R'-O-, -O-P(O)R'-O- or -P(R') 2=N-; halogen : F, Cl, Br or I; R' : optionally (per)fluorinated 1-6C alkyl, optionally unsaturated 3-7C cycloalkyl, optionally substituted phenyl or an optionally substituted heterocycle; A : [R 1>SO 3] ->, [RF'SO 3] ->, [(RFSO 2) 2N] ->, [(RFSO 2) 3C] ->, [(FSO 2) 3C] ->, [R 1>CH 2OSO 3] ->, [R 1>COO] ->, [RF'COO] ->, [CCl 3COO] ->, [(CN) 3C] ->, [(CN) 2CR 1>] ->, [(R 1>OOC) 2CR 1>] ->, [P(C nF 2 n + 1 - mH m) yF 6 - y] ->, [P(C 6F 5) yF 6 - y] ->, [R 1> 2P(O)O] ->, [R 1>P(O)O 2] 2> ->, [(R 1>O) 2P(O)O] ->, [(R 1>O)P(O)O 2] 2> ->, [(R 1>O)(R 1>)P(O)O] ->, [RF 2P(O)O] ->, [RFP(O)O 2] 2->, [BF zRF 4-z] ->, [BF z(CN) 4 - z] ->, [B(CN) 4] ->, [B(C 6F 5) 4] ->, [B(OR 1>) 4] ->, [N(CF 3) 2] ->, [N(CN 2] ->, [AlCl 4] -> or [SiF 6] 2> ->; RF, RF' : 1-20C perfluoroalkyl (not CF 3 in the case of RF'), 2-20C perfluoroalkenyl, perfluorophenyl or optionally unsaturated 3-7C cycloalkyl (optionally substituted with perfluoroalkyl), where pairs of RF or RF' groups may be linked by single or double bonds and carbon atom(s) (see (d) above) may be replaced by O, CO, S, SO, SO 2, -N=, -N=N-, NR', PR' or P(O)R' or may carry a terminal R'OSO 2- or R'OCO- group; R 1> : H (if A = [(CN) 2CR 1>] -> or [(R 1>OOC) 2CR 1>] -> and X is O or S, or if A = [R 1>CH 2OSO 3] ->, X is S or O and the groups R and R 0> are 1-20C alkyl groups), 1-20C alkyl, 2-20C alkenyl or alkynyl (with one or more double or triple bonds) or optionally unsaturated 3-7C cycloalkyl (optionally substituted with 1-6C alkyl), with provisos (b), (c) and (d) as above; n : 1-20; m, z : 0, 1, 2 or 3; y : 0, 1, 2, 3 or 4; if X : S and R and R 0> = 1-20C alkyl, the anions A = [BF 4] ->, CF 3COO ->, [B(C 6H 5) 4] -> and [CH 3C 6H 4SO 3] -> are also allowed; if X : O, the anions A = CF 3COO -> and [B(C 6H 5) 4] -> are also allowed; if X : O and R 0> = ethyl, the anion A = CH 3CH 2OSO 3 -> is not allowed. Independent claims are also included for: (1) a method (M1) for the production of (1) by alkylating a thiourea SC(NR 2) 2 or a urea OC(NR 2) 2 (a) with an ester of formula AR 0> or (b) with an oxonium salt of formula (R 0>) 3A ->; and (2) a method (M2) for the production of (1) by reacting salts of formula (1) in which the anion (A) is [BF 4] ->, Br ->, Cl ->, I -> or [ClO 4] -> with a salt Kt +> A -> or an acid AH. A : [R 1>CH 2OSO 3], [R 1>SO 3], [RFSO 3], [RFCOO] or [CCl 3COO] in M1 (a), or [(FSO 2) 3C] or [BF 4] in M1 (b); Kt : an alkali or alkaline earth metal.

Description

The The present invention relates to salts containing thiouronium cations and various anions, processes for the preparation of these salts as well as their use as ionic liquids.

Ionic liquids or liquid salts are ionic species that consist of an organic cation and a generally inorganic anion. They contain no neutral molecules and mostly have melting points below 373 K. A large number of compounds which are used as ionic liquids are known in the prior art. In particular, they are also the subject of a number of patents and patent applications. For example, Hurley and Wier first published solvent-free ionic liquids in a number of U.S. patents ( US 2,446,331 . US 2,446,339 and US 2,446,350 ) disclosed. These “salts melted at room temperature” were based on AlCl ₃ and a large number of n-alkylpyridinium halides.

In In recent years, some review articles have been published on this Topic published (R. Sheldon "Catalytic reactions in ionic liquids ", Chem. Commun., 2001, 2399-2407; M.J. Earle, K.R. Seddon "Ionic liquids. Green solvent for the future ", Pure Appl. Chem, 72 (2000), 1391-1398; P. Wasserscheid, W. Keim "Ionic Liquids - New Solutions for Transition Metal Catalysis", Angew. Chem, 112 (2000), 3926-3945; T. Welton “Room temperature ionic liquids. Solvents for synthesis and catalysis ", Chem. Rev., 92 (1999), 2071-2083; R. Hagiwara, Ya. Ito "Room temperature ionic liquids of alkylimidazolium cations and fluoroanions ", Journal of Fluorine Chem, 105 (2000), 221-227).

The Properties of ionic liquids, e.g. Melting point, thermal and electrochemical stability, viscosity strongly influenced by the nature of the anion. In contrast, the polarity and the hydrophilicity or lipophilicity by the appropriate choice of Cation / anion pair can be varied. Therefore there is a need for new ones ionic liquids with varied properties, the additional possibilities regarding their Allow use.

task The present invention is to create new stable salt-like compounds with valuable properties as ionic liquids can be used as well as a process for their manufacture put. In particular, it is an object of the present invention to provide ionic compounds with very stable cations, without the size of the cation across from the known cations is significantly increased.

This object is achieved by providing salts with thiouronium cations in which the positive charge is delocalized over several heteroatoms, according to the general formula (1),

The groups R have the meaning of
H
straight-chain or branched alkyl with 1-20 C atoms
straight-chain or branched alkenyl with 2-20 C atoms and one or more double bonds
straight-chain or branched alkynyl with 2-20 C atoms and one or more triple bonds
saturated, partially or completely unsaturated cycloalkyl with 3-7 C atoms, in particular phenyl, which can be substituted with alkyl groups with 1-6 C atoms,
where the R are the same or different,
where the R can be connected in pairs by single or double bond,
where one or more R can be partially or completely substituted with halogens, in particular -F and / or -Cl, or partially with -CN or -NO ₂
and wherein one or two non-adjacent carbon atoms of R, with the exception of the carbon atom α to the sulfur atom, are selected by atoms and / or groupings of atoms from the group -O-, -C (O) -, -C (O) O-, - S-, -S (O) -, -SO ₂ -, -SO ₂ O-, -N =, -N = N-, -NH-, -NR'-, -PH-, -PR'-, - P (O) R'-, -P (O) R'-O-, -OP (O) R'-O- and -PR ' ₂ = N- with R' = not, partially or
perfluorinated C ₁ to C ₆ alkyl, C ₃ to C ₇ cycloalkyl, unsubstituted or substituted phenyl or unsubstituted or substituted heterocycle,
and A ^{- is} selected from the group consisting of:
[R ¹ SO ₃ ] ^- , with the exception of [CH ₃ C ₆ H ₄ SO ₃ ] ^- , [R ^F SO ₃ ] ^- , [(R ^F SO ₂ ) ₂ N] ^- , [(FSO ₂ ) ₃ C ] ^- , [(R ^F SO ₂ ) ₃ C] ^- , [R ¹ OSO ₃ ] ^- , [R ^F C (O) O] ^- , [R ^F C (O) O] ^- , [CCl ₃ C ( O) O] ^- , [(CN) ₃ C] ^- , [(CN) ₂ CR ¹ ] ^- , [(R ¹ O (O) C) ₂ CR ¹ ] ^- , [P (C _n F _{2n + 1 -m} H _m ) _y F _6-y ] ^- , [P (C ₆ F ₅ ) _y F _6-y ] ^- , [R ¹ ₂ P (O) O] ^- , [R ¹ P (O) O ₂ ] ^2– , [R ^F ₂ P (O) O] ^- , [R ^F P (O) O ₂ ] ^2– , [BF ₂ R ^F _4-z ] ^- , [BF _z (CN) _4-z ] ^- , [B (C ₆ H ₅ ) ₄ ] ^- , [B (C ₆ F ₅ ) ₄ ] ^- , [B (OR ¹ ) ₄ ] ^- , [N (CF ₃ ) ₂ ] ^- , [N (CN ) ₂ ] ^- , [AlCl ₄ ] ^- , Br ^- , [SiF ₆ ] ^2– , [SO ₄ ] ^2– and [NO ₃ ] ^-
With
R ^F = perfluorinated and straight-chain or branched alkyl having 1-20 C atoms, preferably having 1-12 C atoms,
perfluorinated and straight-chain or branched alkenyl with 2-20 C atoms and one or more double bonds
perfluorinated and straight-chain or branched alkynyl with 2-20 C-atoms and one or more triple bonds
perfluorinated and saturated, partially or completely unsaturated cycloalkyl with 3-7 C atoms, in particular phenyl, which can be substituted with perfluoroalkyl groups,
where several R ^{F can} each be the same or different,
where the R ^F can be connected in pairs by single or double bond,
and wherein one or two carbon atoms of the R ^{F which are} not adjacent to the heteroatom and are not α, are selected from the group -O-, -C (O) -, -S-, -S (O) -, -SO ₂ -, -SO ₂ O-, -N =, -N = N-, -NH-, -NR'-, -PR'- and -P (O) R'- with R '= not, partially or perfluorinated C ₁ - to C ₆ -alkyl, C ₃ - to C ₇ -cycloalkyl, unsubstituted or substituted phenyl, including -C ₆ F ₅ , or unsubstituted or substituted heterocycle, can be replaced,
R ¹ = H if A ^- = [(CN) ₂ CR ¹ ] ^- or [(R ¹ O (O) C) ₂ CR ¹ ] ^-
straight-chain or branched alkyl with 1-20 C atoms
straight-chain or branched alkenyl with 2-20 C atoms and one or more double bonds
straight-chain or branched alkynyl with 2-20 C atoms and one or more triple bonds
saturated, partially or completely unsaturated cycloalkyl with 3-7 C atoms, especially phenyl,
which can be substituted with alkyl groups with 1-6 C atoms,
where several R ^{1 may} each be the same or different,
where several R ¹ can be connected in pairs by single or double bond,
where one or more R ^{1 can be} partially or completely substituted with halogens, in particular -F and / or -Cl, or partially with -CN or -NO ₂
and wherein one or two non-adjacent and non-α-carbon atoms of R ¹ by atoms and / or groupings of atoms selected from the group -O-, -C (O) -, -C (O) O-, -S-, - S (O) -, -SO ₂ -, -SO ₂ O-, -N =, -N = N-, -NH-, -NR'-, -PR'- and -P (O) R'- with R '= not, partially or perfluorinated C ₁ - to C ₆ -alkyl, C ₃ - to C ₇ -cycloalkyl, unsubstituted or substituted phenyl, including -C ₆ F ₅ , or unsubstituted or substituted heterocycle, can be replaced,
n = 1 to 20 and
m = 0, 1, 2 or 3 and
y = 0, 1, 2, 3 or 4
z = 0, 1, 2, 3 or 4

Under Completely unsaturated In the context of the present invention, substituents are also aromatic Understood substituents.

The compounds of the invention are particularly characterized by very stable cations. there is the size of the cations according to the invention comparable to that of cations of ionic liquids from the state of the art.

at the compounds of the invention it is accordingly salts which are optionally substituted Possess thiouronium cations.

In addition to hydrogen, the substituents R of the uronium cation according to the invention are: C ₁ to C ₂₀ , in particular C ₁ to C ₁₂ alkyl groups, C ₂ to C ₂₀ , in particular C ₂ to C ₁₂ , Alkenyl or alkynyl groups and saturated or unsaturated, ie also aromatic, C ₃ to C ₇ cycloalkyl groups, which can be substituted by C ₁ to C ₆ alkyl groups, in particular phenyl.

The five substituents R of the thiouronium cation according to the invention can be the same or different.

The substituents R can also be linked in pairs in such a way that bi- or polycyclic cations are formed. The substituents can be partially or completely with halogen atoms, especially with F and / or Cl, or partially substituted with CN or NO ₂ . Furthermore, the substituents R can have one or two heteroatoms or atomic groups which are not adjacent to one another and are selected from the group O, C (O), C (O) O, S, S (O), SO ₂ , SO ₂ O, N, N = N, NH, NR ', PH, PR', P (O) R ', P (O) R'O, OP (O) R'O and PR' ₂ = N, where R 'is not, partially or perfluorinated C ₁ to C ₆ alkyl, C ₃ to C ₇ cycloalkyl, unsubstituted or substituted phenyl or unsubstituted or substituted heterocycle.

Without restricting generality, examples of substituents R according to the invention of the thiouronium cation are:
-CH ₃ , -C ₂ H ₅ , -C ₃ H ₇ , -CH (CH ₃ ) ₂ , -C ₄ H ₉ , -C (CH ₃ ) ₃ , -C ₅ H ₁₁ , -C ₆ H ₁₃ , -C ₇ H ₁₅ , -C ₈ H ₁₇ , -C ₉ H ₁₉ , -C ₁₀ H ₂₀ , -C ₁₂ H ₂₅ , -C ₂₀ H ₄₁ , -OCH ₃ , -OCH (CH ₃ ) ₂ , -CH ₂ OCH ₃ , -C ₂ H ₄ OCH (CH ₃ ) ₂ , -SCH ₃ , -SCH (CH ₃ ) ₂ , -C ₂ H ₄ SC ₂ H ₅ , -C ₂ H ₄ SCH (CH ₃ ) ₂ , -S (O) CH ₃ , -SO ₂ CH ₃ , -SO ₂ C ₂ H ₅ , -SO ₂ C ₃ H ₇ , -SO ₂ CH (CH ₃ ) ₂ , -CH ₂ SO ₂ CH ₃ , -OSO ₂ CH ₃ , -CH ₂ N (H) C ₂ H ₅ , -C ₂ H ₄ N (H) C ₂ H ₅ , -CH ₂ N (CH ₃ ) CH ₃ , -C ₂ H ₄ N (CH ₃ ) CH ₃ , -N (CH ₃ ) ₂ , -N (CH ₃ ) C ₃ H ₅ , -N (CH ₃ ) CF ₃ , -OC ₄ H ₈ -OC ₄ H ₉ , -SC ₂ H ₄ -N (C ₄ H ₉ ) ₂ , -OCF ₃ , -CF ₃ , -C ₂ F ₅ , -C ₃ F ₇ , -C ₄ F ₉ , -C (CF ₃ ) ₃ , -CF ₂ SO ₂ CF ₃ , -C ₂ F ₄ N (C ₂ F ₅ ) C ₂ F ₅ , -CFH ₂ , -CHF ₂ , -CH ₂ CF ₃ , -C ₂ F ₂ H ₃ , -C ₃ FH ₆ , -CH ₂ C ₃ F ₇ , -C (CFH ₂ ) ₃ , -CHO, -C (O) OH, -CH ₂ C (O) OH, -CH ₂ C (O) CH ₃ , -CH ₂ C (O) C ₂ H ₅ , -CH ₂ C (O) OCH ₃ , CH ₂ C (O) OC ₂ H ₅ , -C (O) CH ₃ , -C (O) OCH ₃ , -CF = CF ₂ , -C (CF ₃ ) = CFCF ₃ , -CF ₂ CF = CFCF ₃ , -CF = CFN (CF ₃ ) CF ₃ ,

The anion A ^{- of} the salts according to the invention is selected from [R ¹ SO ₃ ] ^- , with the exception of [CH ₃ C ₆ H ₄ SO ₃ ] ^- , [R ^F SO ₃ ] ^- , [(R ^F SO ₂ ) ₂ N ] ^- , [(FSO ₂ ) ₃ C] ^- , [(R ^F SO ₂ ) ₃ C] ^- , [R ¹ OSO ₃ ] ^- , [R ¹ C (O) O] ^- , [R ^F C (O ) O] ^- , [CCl ₃ C (O) O] ^- , [(CN) ₃ C] ^- , [(CN) ₂ CR ¹ ] ^- , [(R ¹ O (O) C) ₂ CR ¹ ] ^- , [P (C _n F _{2n + 1-m} H _m ) _y F _6-y ] ^- , [P (C ₆ F ₅ ) _y F _6-y ] ^- , [R ¹ ₂ P (O) O] ^- , [R ¹ P (O) O ₂ ] ^2- , [R ^F ₂ P (O) O] ^- , [R ^F P (O) O ₂ ] ^2- , [BF _z R ^F _4-z ] ^- , [BF _z (CN) _4-z ] ^- , [B (C ₆ H ₅ ) ₄ ] ^- , [B (C ₆ F ₅ ) ₄ ] ^- , [B (OR ¹ ) ₄ ] ^- , [N (CF ₃ ) ₂ ] ^- , [N (CN) ₂ ] ^- , [AlCl ₄ ] ^- , Br ^- , [SiF ₆ ] ^2– , [SO ₄ ] ^2– and [NO ₃ ] ^-

The organic groups R ^F or R ^{1 of} the anion which can be used according to the invention are: C ₁ to C ₂₀ , in particular C ₁ to C ₁₂ alkyl groups, C ₂ to C ₂₀ , in particular C ₂ to C ₁₂ -, Alkenyl or alkynyl groups and saturated or unsaturated, ie also aromatic, C ₃ - to C ₇ -cycloalkyl groups, which can be substituted by C ₁ - to C ₆ -alkyl groups, especially phenyl.

The groups R ^F are perfluorinated, ie all carbon atoms are not saturated with hydrogen but with fluorine atoms. The groups R ¹ can be partially substituted with halogen atoms, in particular with F and / or Cl, CN or NO ₂ .

In the event that several R ^F or R ^{1 are present} in one anion, these can also be connected in pairs by single or double bonds in such a way that bi- or polycyclic anions are formed.

Furthermore, the R ^F or R ^{1 can have} one or two atoms or atom groups which are not adjacent to one another and are not α-to the hetero atom, selected from the group O, C (O), C (O) O, S, S (O) , SO ₂ , SO ₂ O, N, N = N, NH, NR ', PH, PR', P (O) R ', P (O) R'O, OP (O) R'O and PR' ₂ = Contain N, where R 'is an unsubstituted, partially or perfluorinated C ₁ -C ₆ -alkyl, C ₃ -C ₇ -cycloalkyl, an unsubstituted or substituted phenyl, including -C ₆ F ₅ , or an unsubstituted or substituted heterocycle can be.

Without restricting generality, examples of R ¹ or R ^{F of} the anion according to the invention are:
-CH ₃ , -C ₂ H ₅ , -C ₃ H ₇ , -CH (CH ₃ ) ₂ , -C ₄ H ₉ , -C (CH ₃ ) ₃ , -C ₅ H ₁₁ , -C ₆ H ₁₃ , -C ₇ H ₁₅ , -C ₈ H ₁₇ , -C ₉ H ₁₉ , -C ₁₀ H ₂₁ , -C ₁₂ H ₂₅ , -C ₂₀ H ₄₁ , -CH ₂₀ CH (CH ₃ ) ₂ , -CH ₂ OCH ₃ , -C ₂ H ₄ OCH (CH ₃ ) ₂ , -CH ₂ SCH ₃ , -CH ₂ SCH (CH ₃ ) ₂ , -C ₂ H ₄ SC ₂ H ₅ , -C ₂ H ₄ SCH (CH ₃ ) ₂ , -CH ₂ S (O) CH ₃ , -CH ₂ SO ₂ CH ₃ , -C ₂ H ₄ SO ₂ C ₂ H ₅ , -C ₂ H ₄ SO ₂ C ₃ H ₇ , -CH ₂ SO ₂ CH (CH ₃ ) ₂ , -CH ₂ SO ₂ CH ₃ , -CH ₂ OSO ₂ CH ₃ , -CH ₂ N (H) C ₂ H ₅ , -C ₂ H ₄ N (H) C ₂ H ₅ , -CH ₂ N (CH ₃ ) CH ₃ , -C ₂ H ₄ N (CH ₃ ) CH ₃ , -CH ₂ N (CH ₃ ) ₇ , -C ₂ H ₄ N (CH ₃ ) C ₃ H ₅ , -C ₂ H ₄ OC ₄ H ₈ -OC ₄ H ₉ , -C ₂ H ₄ SC ₂ H ₄ -N (C ₄ H ₉ ) ₂ , -CHF ₂ , -CH ₂ CF ₃ , -C ₂ F ₂ H ₃ , - C ₃ FH ₆ , -CH ₂ C ₃ F ₇ , -C (CFH ₂ ) ₃ , -CHO, -C (O) OH, -CH ₂ C (O) OH, -CH ₂ C (O) CH ₃ , -CH ₂ C (O) C ₂ H ₅ , -CH ₂ C (O) OCH ₃ , CH ₂ C (O) OC ₂ H _S , -C (O) CH ₃ , -C (O) OCH ₃ , - CH = CH ₂ , -C (CH ₃ ) = CHCH ₃ , -CH ₂ CH = CHCH ₃ , -CH = CHN (CH ₃ ) CH ₃ , -CF ₃ , -C ₂ F ₅ , -C ₃ F ₇ , -C ₄ F ₉ , -C (CF ₃ ) ₃ , -CF ₂ OSO ₂ CF ₃ , -CF ₂ N (CF ₃ ) CF ₃ , -CF ₂ OCF ₃ , -CF ₂ S (O) CF ₃ , -CF ₂ SO ₂ CF ₃ , -CF ₂ SO ₂ CF ₃ , -CF ₂ SO ₂ F , -C ₂ F ₄ N (C ₂ F ₅ ) C ₂ F ₅ , -CF = CF ₂ , -C (CF ₃ ) = CFCF ₃ , -CF ₂ CF = CFCF ₃ , -CF = CFN (CF ₃ ) CF ₃ ,

Without restricting generality, the following give some examples of anions according to the invention:
[CH ₃ SO ₃ ] ^- , [C ₂ H ₅ SO ₃ ] ^- , [CF ₃ SO ₃ ] ^- , [CF ₃ CF ₂ SO ₃ ] ^- , [(CF ₃ SO ₂ ) ₂ N] ^- , [( C ₂ F ₅ SO ₂ ) ₂ N] ^- , [(CF ₃ SO ₂ ) ₃ C] ^- , [(C ₂ F ₅ SO ₂ ) ₃ C] ^- , [(FSO ₂ ) ₃ C] ^- , [CH ₃ CH ₂ OSO ₃ ] ^- , [CH ₃ C (O) O]] ^- , [C ₂ H ₅ C (O) O]] ^- , [CF ₃ C (O) O] ^- , [CF ₃ CF ₂ C (O) O] ^- , [P (C ₂ F ₅ ) ₃ F ₃ ] ^- , [P (CF ₃ ) ₃ F ₃ ] ^- , [P (C ₂ F ₄ H) (CF ₃ ) ₂ F ₃ ] ^- , [P (C ₂ F ₃ H ₂ ) ₃ F ₃ ] ^- , [P (C ₂ F ₅ ) (CF ₃ ) ₂ F ₃ ] ^- , [P (C ₆ F ₅ ) ₃ F ₃ ] ^- , [P (C ₆ F ₅ ) ₂ F ₄ ] ^- , [P (C ₃ F ₇ ) ₃ F ₃ ] ^- , [P (C ₂ F ₅ ) ₂ F ₄ ] ^- , [(C ₂ F ₅ ) ₂ P (O) O] ^- , [(C ₂ F ₅ ) P (O) O ₂ ] ^- , [(CH ₃ ) ₂ P (O) O] ^- , [CH ₃ P (O) O ₂ ] ^{2 -} , [(CF ₃ ) ₂ P (O) O] ^- , [CF ₃ P (O) O ₂ ] ^2- , [BF ₃ (CF ₃ )] ^- , [BF ₂ (C ₂ F ₅ ) ₂ ] ^- , [BF ₃ (C ₂ F ₅ )] ^- , [BF ₂ (CF ₃ ) ₂ ] ^- , [B (C ₂ F ₅ ) ₄ ] ^- , [BF ₃ (CN)] ^- , [BF ₂ ( CN) ₂ ] ^- , [B (CN) ₄ ] ^- , [B (OCH ₃ ) ₄ ] ^- , [BF ₄ ] ^- , [B (CF ₃ ) ₄ ] ^- , [B (OCH ₃ ) ₂ (OC ₂ H ₅ ) ₂ ] ^- , [B (O ₂ C ₂ H ₄ ) ₂ ] ^- , [B (O ₂ C ₂ N ₂ ) ₂ ] ^- , [B (O ₂ C ₆ H ₄ ) ₂ ] ^- , [SiF ₆ ] ^2– , Br ^-

In preferred according to the invention Salts are the substituents R of the guanidinium cation hydrogen or a straight-chain or branched alkyl group with 1-12 C atoms, especially with 1-4 carbon atoms.

All the substituents R of the uronium cation are particularly preferred selected from the group N, methyl, ethyl, n-propyl, isopropyl, n-butyl, tert-butyl, sec-butyl, Phenyl and cyclohexyl.

Preferred anions of the salts according to the invention are selected from the group [CH ₃ SO ₃ ] ^- , [C ₈ H ₁₇ SO ₃ ] ^- , [C ₂ F ₅ SO ₃ ] ^- , [CF ₃ SO ₃ ] ^- , [PF ₆ ] ^- , [(C ₂ F ₅ ) ₃ PF ₃ ] ^- , [(C ₂ F ₅ ) ₂ PF ₄ ] ^- , [(C ₄ F ₉ ) ₃ PF ₃ ] ^- , [(C ₃ F ₇ ) ₃ PF ₃ ] ^- , [(C ₂ F ₅ ) ₂ P (O) O] ^- , [(C ₂ F ₅ ) P (O) O ₂ ] ^2- , [B (CN) ₄ ] ^- , [B (CF ₃ ) ₄ ] ^- , [B (C ₂ F ₅ ) F ₃ ] ^- , [N (CN) ₂ ] ^- , [N (CF ₃ ) ₂ ] ^- , [N (SO ₂ CF ₃ ) ₂ ] ^- and [BF ₄ ] ^- .

The present invention secondly relates to a process for the preparation of the salts according to the invention with thiouronium cations according to the general formula (1). For this purpose, a thiourea C (S) (NR _{2) 2} with an ester or with an oxonium salt AR R ₃ O ⁺ A ^- alkylated.

The groups or substituents A and R are defined as those of the general formula (1). In the case of reaction with the ester from the group [R ¹ OSO ₃ ], [R ¹ SO ₃ ], [R ^F SO ₃ ], [R ^F C (O) O] and [CCl ₃ C ( In the case of reaction with the oxonium salt, O) O] and A ^- can be selected from the group [(FSO ₂ ) ₃ C] ^- , [BF ₄ ] ^- and [PF ₆ ] ^- .

Preferably the reaction is carried out at a temperature at which at least one of the components liquid is. The reaction in a temperature range is particularly preferred carried out, in which the reaction mixture is liquid is.

The Reaction of the thiourea with an ester or an oxonium salt can in polar organic solvents, for example 1,2-dichloroethane or dichloromethane, in non-polar organic solvents, e.g. hexane or pentane, or without solvent, e.g. in the salt melt, carried out become. According to the invention Place pure solvent also solvent mixtures be used.

According to the Ratios of reagents up to five times the excess one of the reactants are implemented. The reactants are preferred however in an equimolar amount used.

The salts according to the invention can with very good yields, usually over 80%, preferably over 90%, be isolated.

Another object of the present invention is an alternative method for the production of a salt according to the invention by means of salting. Here, a salt with a thiouronium cation according to the general formula (1) and an anion A ^- , which is either defined according to the general formula (1) or selected from the group [CH ₃ C ₆ H ₄ SO ₃ ] ^- , Cl ^- , I ^- , [BF ₄ ] ^- , [AsF ₆ ] ^- , [SbF ₆ ] ^- , [SbCl ₆ ] ^- and [ClO ₄ ] ^- , with a salt Kt ⁺ A ^- or with an acid AH, whereby Kt is an alkali or alkaline earth metal and A is defined according to the general formula (1).

Preferably the reaction is carried out at a temperature at which at least one of the components liquid is. The reaction in a temperature range is particularly preferred carried out, in which the reaction mixture is liquid is.

The Salting of the thiouronium salt can be done in polar solvents, for example water, acetonitrile, dimethoxyethane, dimethylformamide, Methanol or propionitrile, in non-polar organic solvents, e.g. dichloromethane, or without solvent, e.g. in the salt melt, carried out become. According to the invention Place pure solvent also solvent mixtures be used.

According to the Ratios of reagents up to 10% excess be reacted by one of the reactants. The are preferred However, reactants in equimolar Quantity used.

All compounds of the invention have a salt-like character, relatively low melting points (mostly below 100 ° C) and can as ionic liquids be used.

The salts according to the invention can be used as solvents for many synthetic or catalytic reactions, for example Friedel-Crafts acylation and alkylation, Diels-Alder cycloadditions, hydrogenation and oxidation reactions, Heck reactions. Furthermore, for example fluorinated solvents solvents for secondary and primary batteries can be synthesized.

Also the use of the compounds according to the invention than non-aqueous Electrolyte optionally in combination with others, the expert known electrolytes is possible.

Besides can the salts according to the invention as non-aqueous polar substances in suitable reactions as phase transfer catalysts, as manufacturer (surface active agent) or as Medium used for the heterogenization of homogeneous catalysts become.

The full Disclosure of all applications and patents listed above and below and publications is incorporated by reference into this application.

Also without further explanations it is believed that one skilled in the art will understand the above description can use to the greatest extent. The preferred embodiments and examples are therefore only descriptive, by no means as a limiting disclosure in any way.

The NMR spectra were measured on solutions in deuterated solvents at 20 ° C. on a Bruker Avance DRX spectrometer with a 5 mm broadband head ¹ H / BB with deuterium lock. The measurement frequencies of the different cores are: ¹ H: 300.13 MHz, ¹¹ B: 96.92 MHz, ¹⁹ F: 282.41 MHz and ³¹ P: 121.49 MHz. The referencing method is specified separately for each spectrum or for each data set.

Example 1: N, N, N ', N'-tetramethyl-S-ethylisothiouronium triflate

15.0 g (113.4 mmol) of N, N, N ', N'-tetramethylthiourea are dissolved in 50 cm ^{3 of} dichloromethane and 20.6 g (115.6 mmol) of ethyl triflate, CF ₃ SO, are added while cooling with an ice bath and vigorously stirring the reaction mixture with a magnetic stirrer ₂ OC ₂ H ₅ , slowly (drop by drop) added within 30 min. The reaction mixture is stirred for a further 10 min at room temperature. The solvent is removed in vacuo. The residue is washed three times with 30 cm ^{3 of} pentane and dried for one hour in a vacuum of 7.0 Pa at 40-50 ° C. 35.0 g of a slightly melting crystalline material are obtained. The yield of N, N, N ', N'-tetramethyl-N''- ethylisothiouronium triflate is 99.5% based on N, N, N', N'-tetramethylthiourea.

¹⁹ F NMR (reference: CCl ₃ F - internal standard; solvent: CD ₃ CN): -77.84 s (CF ₃ ).

¹ H NMR (reference: TMS; solvent: CD ₃ CN): 1.30 t (CH ₃ ); 3.02 q (CH ₂ ); 3.25 s (4CH ₃ ); ³ J _{H, H} = 7.4 Hz.

Elemental analysis

• Found,%: C 30.82 H 5.49 N 9.07
• Calculated for C ₈ H ₁₇ F ₃ N ₂ O ₃ S ₂ ,%: C 30.96 H 5.52 N 9.03

Example 2: N, N, N ', N'-tetramethyl-S-ethylisothiouronium tris (pentafluoroethyl) trifluorophosphate

17.1 g (55.1 mmol) of N, N, N ', N'-tetramethyl-S-ethylisothiouronium triflate are dissolved in 70 cm ^{3 of} water dissolves and with intensive stirring of the reaction mixture using a magnetic stirrer, 31.0 g (57.8 mmol) of tris (pentafluoroethyl) trifluorophosphoric acid pentahydrate are added at room temperature. The lower liquid phase is separated and washed four times with 30 cm ^{3 of} water. The residue is dried for three hours in a vacuum of 7.0 Pa at 60 ° C in an oil bath. 30.0 g of a liquid material are obtained. The yield of N, N, N ', N'-tetramethyl-S-ethylisothiouronium tris (pentafluoroethyl) trifluorophosphate is 89.8% based on N, N, N', N'-tetramethyl-S-ethylisothiouronium triflate.

¹⁹ F NMR (reference: CCl ₃ F - internal standard; solvent: CD ₃ CN): -43.56 dm (PF); -79.58 m (CF ₃ ); -81.27 m (2CF ₃ ); -86.92 dm (PF ₂ ); -114.93 m (CF ₂ ); -115.52 m (2CF ₂ ); ¹ J _{P, F} = 890 Hz; ¹ J _{P, F} = 904 Hz; ² J _{P, F} = 86 Hz; ² J _{P, F} = 97 Hz.

¹ H NMR (reference: TMS; solvent: CD ₃ CN): 1.34 t (CH ₃ ); 3.03 q (CH ₂ ); 3.25 s (4CH ₃ ); ³ J _{H, H} = 7.4 Hz.

³¹ P NMR (reference: 85% H ₃ PO ₄ ; solvent: CD ₃ CN): -148.55 dtm; ¹ J _{P, F} = 890 Hz; ¹ J _{P, F} = 902 Hz.

Elemental analysis

• Found,%: C 25.63 H 2.87 N 4.59
• Calculated for C ₁₃ H ₁₇ F ₁₈ N ₂ PS,%: C 25.75 H 2.83 N 4.62

Example 3: N, N, N ', N'-tetramethyl-S- (2,2,2-trifluoroethyl) isothiouronium triflate

1.0 g (7.56 mmol) of N, N, N ', N'-tetramethylthiourea are dissolved in 20 cm ^{3 of} hexane and, with vigorous stirring of the reaction mixture using a magnetic stirrer, 1.84 g (7.93 mmol) of 2,2,2-trifluoroethyl triflate, CF ₃ SO ₂ OCH ₂ CF ₃ , added slowly (drop by drop) at room temperature. The reaction mixture is stirred for a further 6 hours at room temperature. The lower phase is separated from the hexane and washed twice with 10 cm ^{3 of} hexane. The residue is dried in a vacuum of 1.3 Pa at 50 ° C for two hours. 2.74 g of an oily material are obtained (mp 69-70 ° C). The yield of N, N, N ', N'-tetramethyl-S- (2,2,2-trifluoroethyl) isothiouronium triflate is 99.4% based on N, N, N', N'-tetramethylthiourea.

¹⁹ F NMR (reference: CCl ₃ F - internal standard; solvent: CD ₃ CN): -65.98 t (CF ₃ ); -77.92 t (CF ₃ ); ³ J _{H, F} = 9.6 Hz.

¹ H NMR (reference: TMS; solvent: CD ₃ CN): 3.30 s (4CH ₃ ); 3.75 q (CH ₂ ); ³ J _{H, F} = 9.6 Hz. Example 4: N, N, N ', N'-tetramethyl-S-ethylisothiouronium tetrafluoroborate

70 cm ^{3 of} a 1 M solution of triethyloxonium tetrafluoroborate (69.6 mmol) in dichloromethane are added to 4.6 g (34.8 mmol) of N, N, N ', N'-tetramethylthiourea with vigorous stirring of the reaction mixture using a magnetic stirrer and ice bath cooling. The reaction mixture is stirred for 6 hours at room temperature and all volatile components are removed in vacuo. The residue is washed three times with 40 cm ^{3 of} hot (60 ° C.) hexane and dried for one hour in a vacuum of 1.3 Pa at room temperature. 6.8 g of a solid material are obtained. The yield of N, N, N ', N'-tetramethyl-S-ethylisothiouronium tetrafluoroborate is 78.8% based on N, N, N', N'-tetramethylthiourea.

¹⁹ F NMR (reference: CCl ₃ F - internal standard; solvent: CD ₃ CN): -150.34 s; 150.40 s (BF ₄ ^- ).

¹ H NMR (reference: TMS; solvent: CD ₃ CN): 1.29 t (CH ₃ ); 2.99 q (CH ₂ ); 3.22 s (4CH ₃ ); ³ J _{H, H} = 7.4 Hz.

Claims (15)

Salt with a thiouronium cation, which has the general formula (1)

in which R = H straight-chain or branched alkyl having 1-20 C atoms straight-chain or branched alkenyl having 2-20 C atoms and one or more double bonds straight-chain or branched alkynyl having 2-20 C atoms and one or more triple bonds saturated, partially or completely unsaturated cycloalkyl with 3-7 C atoms, in particular phenyl, which can be substituted with alkyl groups with 1-6 C atoms, where the Rs are the same or different, the Rs being connected in pairs by single or double bond can be, where one or more R can be partially or completely substituted with halogens, in particular -F and / or -Cl, or partially with -CN or -NO ₂ , and wherein one or two non-adjacent carbon atoms of the R, except for the Sulfur atom in the α-carbon atom, selected by atoms and / or groupings from the group -O-, -C (O) -, -C (O) O-, -S-, -S (O) -, -SO ₂ - , -SO ₂ O-, -N =, -N = N-, -NH-, -NR'-, -PH-, -PR'-, -P (O) R'-, -P (O) R'-O-, -OP (O) R'- O- and -PR ' ₂ = N- with R' = not, partially or perfluorinated C ₁ to C ₆ alkyl, C ₃ to C ₇ cycloalkyl, unsubstituted or substituted phenyl or unsubstituted or substituted heterocycle can be replaced , and A ^{- is} selected from the group consisting of: [R ¹ SO ₃ ] ^- , with the exception of [CH ₃ C ₆ H ₄ SO ₃ ] ^- , [R ^F SO ₃ ] ^- , [(R ^F SO ₂ ) ₂ N] ^- , [(FSO ₂ ) ₃ C] ^- , [(R ^F SO ₂ ) ₃ C] ^- , [R ¹ OSO ₃ ] ^- , [R ¹ C (O) O] ^- , [R ^F C (O) O] ^- , [CCl ₃ C (O) O] ^- , [(CN) ₃ C] ^- , [(CN) ₂ CR ¹ ] ^- , [(R ¹ O (O) C) ₂ CR ¹ ] ^- , [P (C _n F _{2n + 1-m} H _m ) _y F _6-y ] ^- , [P (C ₆ F ₅ ) _y F _6-y ] ^- , [R ¹ ₂ P (O) O ] ^- , [R ¹ P (O) O ₂ ] ^2– , [R ^F ₂ P (O) O] ^- , [R ^F P (O) O ₂ ] ^2– , [BF _z R ^F _4-z ] ^- , [BF _z (CN) _4-z ] ^- , [B (C ₆ H ₅ ) ₄ ] ^- , [B (C ₆ F ₅ ) ₄ ] ^- , [B (OR ¹ ) ₄ ] ^- , [N (CF ₃ ) ₂ ] ^- , [N (CN) ₂ ] ^- , [AlCl ₄ ] ^- , Br ^- , [SiF ₆ ] ^2- , [SO ₄ ] ^2- and [NO ₃ ] ^- with R ^F = perfluorinated and straight-chain or branched alkyl with 1-20 C-atoms, preferably with 1-12 C-atoms, perfluorinated and straight-chain or branched alkenyl with 2-20 C-atoms and one or more Double bonds perfluorinated and straight-chain or branched alkynyl with 2-20 C atoms and one or more triple bonds perfluorinated and saturated, partially or completely unsaturated cycloalkyl with 3-7 C atoms, in particular phenyl, which can be substituted with perfluoroalkyl groups, where several R ^F can each be the same or different, where the R ^F can be connected in pairs by single or double bond, and wherein one or two carbon atoms of the R ^F not adjacent and not α to the hetero atom are selected from the group by atoms and / or atom groups -O-, -C (O) -, -S-, -S (O) -, -SO ₂ -, -SO ₂ O-, -N =, -N = N-, -NH-, -NR ' -, -PR'- and -P (O) R'- with R '= not, partially or perfluor ized C ₁ to C ₆ alkyl, C ₃ to C ₇ cycloalkyl, unsubstituted or substituted phenyl, including C ₆ F ₅ , or unsubstituted or substituted heterocycle, R ¹ = H in the event that A ^- = [(CN) ₂ CR ¹ ] ^- or [(R ¹ O (O) C) ₂ CR ¹ ] ^- straight-chain or branched alkyl with 1-20 C-atoms straight-chain or branched alkenyl with 2-20 C-atoms and one or more double bonds straight-chain or branched alkynyl with 2-20 C atoms and one or more triple bonds saturated, partially or completely unsaturated cycloalkyl with 3-7 C atoms, in particular phenyl, which is substituted with alkyl groups with 1-6 C atoms can be, where several R ¹ can be the same or different, where several R ¹ can be connected in pairs by single or double bond, one or more R ¹ partially or completely with halogens, in particular -F and / or -Cl, or partially with -CN or -NO ₂ , and where one or two non-adjacent and non-α-carbon atoms of R ¹ by atoms and / or groupings of atoms selected from the group -O-, -C (O) -, -C (O) O-, -S-, -S (O) -, -SO ₂ -, -SO ₂ O-, -N =, -N = N-, -NH-, -NR'-, -PR'- and -P (O) R'- with R '= not, partially or perfluorinated C ₁ - to C ₆ -alkyl, C ₃ - to C ₇ -cycloalkyl, unsubstituted or substituted phenyl, including -C ₆ F ₅ , or unsubstituted or substituted heterocycle, can be replaced, n = 1 to 20 and m = 0, 1, 2 or 3 and y = 0 , 1, 2, 3 or 4 z = 0, 1, 2, 3 or 4 Salt according to claim 1, characterized in that R is hydrogen and / or a straight-chain or branched alkyl with 1-12 C atoms, in particular with 1-4 carbon atoms. Salt according to claim 2, characterized in that R selected is from the group H, methyl, ethyl, n-propyl, isopropyl, n-butyl, tert-butyl, sec-butyl, phenyl and cyclohexyl. Salt according to claim 1, characterized in that the anion is selected from the group [CH ₃ SO ₃ ] ^- , [C ₈ H ₁₇ SO ₃ ] ^- , [C ₂ F ₅ SO ₃ ] ^- , [CF ₃ SO ₃ ] ^- , [PF ₆ ] ^- , [(C ₂ F ₅ ) ₃ PF ₃ ] ^- , [(C ₂ F ₅ ) ₂ PF ₄ ] ^- , [(C ₄ F ₉ ) ₃ PF ₃ ] ^- [(C ₃ F ₇ ) ₃ PF ₃ ] ^- , [(C ₂ F ₅ ) ₂ P (O) O] ^- , [(C ₂ F ₅ ) P (O) O ₂ ] ^2– [B (CN) ₄ ] ^- , [B (CF ₃ ) ₄ ] ^- [B (C ₂ F ₅ ) F ₃ ] ^- , [N (CN) ₂ ] ^- , [N (CF ₃ ) ₂ ] ^- , [N (SO ₂ CF ₃ ) ₂ ] ^- and [BF ₄ ] ^- . Process for the preparation of a salt according to one of Claims 1 to 4, characterized in that a thiourea C (S) (NR ₂ ) ₂ , the radicals R as defined in Claim 1, with an ester AR, the radicals R as are defined in claim 1 and A is selected from the group [R ¹ OSO ₃ ], [R ¹ SO ₃ ], [R ^F SO ₃ ], [R ^F C (O) O] and [CCl ₃ C (O) O], or with an oxonium salt R ₃ O ⁺ A ^- , where the radicals R are as defined in claim 1 and A ^{- is} selected from the group [(FSO ₂ ) ₃ C] ^- , [BF ₄ ] ^- and [PF ₆ ] ^{- is} alkylated. A method according to claim 5, characterized in that the reaction is carried out at a temperature at which at least one of the components liquid is. A method according to claim 5 or 6, characterized in that that the implementation in polar, organic solvent, in non-polar solvent or without solvent carried out becomes. Method according to one of claims 5 to 7, characterized in that that the implementation of the reagents with a quantitative ratio up to five times the surplus one of the reactants, preferably in an equimolar amount, is carried out. Process for the preparation of a salt according to one of Claims 1 to 4, characterized in that a salt with a thiouronium cation of the general formula (1),

wherein the radicals R and the anion A ^{- are} as defined in claim 1 or the anion A ^{- is} selected from the group Cl ^- , I ^- , [BF ₄ ] ^- , [CH ₃ C ₆ H ₄ SO ₃ ] ^- , [ AsF ₆ ] ^- , [SbF ₆ ] ^- , [SbCl ₆ ] ^- and [ClO ₄ ] ^- with a salt Kt ⁺ A ^- or with an acid AH, where Kt is an alkali or alkaline earth metal and A is as defined in claim 1 , is implemented. A method according to claim 9, characterized in that the implementation in polar solvent, in non-polar solvent or without solvent carried out becomes. A method according to claim 9 or 10, characterized in that that the implementation of the reagents with a quantitative ratio up to 10% surplus of one of the reactants, preferably in an equimolar amount. Use of a salt of the general formula (1),

in which the radicals R and the anion A ^- as defined in claim 1, as an ionic liquid. Use of a salt according to claim 12 as a non-aqueous Electrolyte. Use of a salt according to claim 12 as a phase transfer catalyst. Use of a salt according to claim 12 as a surfactant Material.