Process for bleaching paper using bleaching-active dendrimer...

Bleaching and dyeing; fluid treatment and chemical modification – Bleaching – Chemical

Reexamination Certificate

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C510S303000, C510S311000, C510S372000, C510S376000, C510S499000, C510S506000, C556S045000, C556S136000, C556S137000, C564S307000, C564S463000

Reexamination Certificate

active

06506218

ABSTRACT:

BACKGROUND OF THE INVENTION
It is known that the bleaching power of peroxide bleaches, such as hydrogen peroxide, perborates, percarbonates, persilicates and perphosphates, in laundry detergents and cleaners, and thus the efficiency of these bleaches for the removal of tea, coffee, fruit or red wine stains only fully develops at relatively high temperatures of significantly more than 60° C. To improve the bleaching action, which is greatly reduced at relatively low temperatures, below 60° C. in particular, it is possible to use compounds to activate the peroxide bleaches. A number of transition metal salts and corresponding complexes with mostly chelating compounds have been proposed for this purpose, although the effectiveness of a metal or of a specific combination of transition metal and complex ligand cannot be predicted.
A large number of specifications, for example WO 96/06154 and EP 458 397, claim metal complexes with a high activation potential. DE 1 980 9713 describes transition metal complexes with polyamidoamine dendrimer ligand systems. It is an object to find bleaching catalysts which have a high oxidizing and bleaching capacity and which also harm the colors of dyed textiles or surfaces, and the textile fibers as little as possible.
A dendritic polyamine and its cobalt complex are described in Chem. Ber. 1993, pp. 2133-2135. DE-A-196 21 510 describes dendrimers with planar-chiral or axial-chiral end groups.
SUMMARY OF THE INVENTION
We have now found that transition metal complexes with dendrimers of the polyalkyleneimine type improve the bleaching action of peroxygen compounds during the bleaching of colored soilings both on textiles and on hard surfaces, without harming colors and fibers. Moreover, we have found that the use of dendrimers which are not bonded to form complexes with transition metals in laundry detergents and cleaners enhance the oxidizing and bleaching capacity of the compositions in aqueous solution.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
The invention provides laundry detergents and cleaners comprising a compound of the formula
(R
1
R
1
)N—X—N(R
1
R
1
)  (I)
in which
R
1
is a group of the formula (R
2
R
3
)N—(CH
2
)
n
—,
R
2
and R
3
are in each case a group of the formula (R
4
R
5
)N—(CH
2
)
n
—, n is the numbers 2 or 3, or R
2
and R
3
together are the group of the formula A or R
2
is hydrogen and R
3
is a group of the formula
R
4
and R
5
are in each case a group of the formula (R
6
R
7
)—N—(CH
2
)
n
—, n is the numbers 2 or 3, or R
4
and R
5
together are the group of the formula A or R
4
is hydrogen and R
5
is a group of the formula
R
6
and R
7
are in each case a group of the formula (R
8
R
9
)N—(CH
2
)
n
—, n is the numbers 2 or 3, or R
6
and R
7
together are the group of the formula A or R
6
is hydrogen and R
7
is a group of the formula
R
8
and R
9
together are the group of the formula A or
R
8
is hydrogen and R
9
is a group of the formula
A is a group of the formula
in which a is an integer from 1 to 4, and R
10
is hydrogen, C
1
-C
30
-alkyl, cycloalkyl or aryl radicals, C
1
-C
4
-alkoxy groups, substituted or unsubstituted amino or ammonium groups, halogen atoms, sulfo groups, carboxyl groups or groups of the formula —(CH
2
)
r
—COOH, —(CH
2
)
r
—SO
3
H, —(CH
2
)
r
—PO
3
H
2
, —(CH
2
)
r
—OH, where r is an integer from 0 to 4, and said acid groups may also be present in salt form, and
X is a group of the formulae —(CH
2
)
n
—, —(CH
2
)
3
—NR
11
—(CH
2
)
3
—, —(CH
2
)
2
—NR
11
—(CH
2
)
2
—, C
2
-C
20
-alkylene, —(CH
2
)
l
—[O—(CH
2
)
k
]
m
—O—CH
2
)
l
)—, n is a number from 2 to 20, l and k are a number from 2 to 6, m is a number from 1 to 40,
R
11
is C
1
-C
20
-alkyl, C
2
-C
20
-dialkylamino-C
2
-C
10
-alkyl, C
1
-C
10
-alkoxy-C
2
-C
10
-alkyl, C
2
-C
20
-hydroxyalkenyl, C
3
-C
12
-cycloaklyl, C
4
-C
20
-cycloalkyl-alkyl, C
2
-C
20
-alkenyl, C
4
-C
30
-dialkylamino-alkenyl, C
3
-C
30
-alkoxyalkenyl, C
3
-C
20
-hydroxyalkenyl, C
5
-C
20
-cycloalkyl-alkenyl, optionally by C
1
-C
8
-alkyl, C
2
-C
8
-dialkylamino, C
1
-C
8
-alkoxy, hydroxyl, C
3
-C
8
-cycloalkyl, C
4
-C
12
-cycloalkyl-alkyl, or together are an alkylene chain optionally interrupted by nitrogen or oxygen, such as ethylene oxide, propylene oxide, butylene oxide or —CH
2
—CH(CH
3
)—O—.
The invention further provides laundry detergents and cleaners comprising complexes of the above-defined compounds with cobalt, manganese, iron, ruthenium, vanadium, molybdenum or tungsten. Preference is given to manganese complexes. These compounds and the corresponding metal complexes are suitable as bleaching and oxidation catalysts in the case of peroxygen compounds, in particular in laundry detergents and cleaners which comprise peroxygen compounds, for example universal laundry detergents or machine dishwashing detergents. These catalysts improve the oxidizing and bleaching action of the inorganic peroxygen compounds at temperatures below 80° C., in particular in the temperature range from 15 to 45° C. with simultaneous reduction in color and textile fiber damage. Moreover, the compounds defined above and metal complexes thereof can also be used in the bleaching of paper.
The preparation of the polysalene dendrimers of the formula I has been carried out by a method described in the specialist literature (R. Moors, F. Vögtle, Chem. Ber. 1993, 126, 2133-2135). The initiator core used here is ethylenediamine, which is converted by a Michael Addition with acrylonitrile. The terminal nitrile groups are reduced to give the amine, as a result of which a further addition of acrylonitrile is made possible. By repeating this synthesis frequency, the number of functionalities doubles. In each of these synthesis stages, the amino groups can be reacted with salicylaldehyde, giving compounds of the formula I containing the group A. Reaction of the amino groups with a derivative of ∀,∃-diaminopropionic acid and subsequent reaction with salicylaldehyde gives compounds of the formula I which contain groups of the formula —COCHNA—CH
2
NA.
The products are formed as yellow solids or oils.
The complexation with metal cations can take place in three different ways. In the first method, the ligand is prepared as described by Moors and Vögtle. This is then followed, in a suitable solvent, e.g. chloroform, methylene chloride, ethanol, methanol, dimethylformamide, water, dimethyl sulfoxide or mixtures thereof, by the reaction with the metal cation, for example to give the dendritic complex.
In a second embodiment, salicylaldehyde, dendritic polyamine and metal salt are combined in a one-pot reaction in a suitable solvent, e.g. chloroform, methylene chloride, ethanol, methanol, dimethylformamide, water, dimethyl sulfoxide or mixtures thereof, forming the catalysts according to the invention. In the third embodiment, the metal-free polysalene dendrimer can be used. In this case, the dendrimer takes up the metal cations present in the water during use and acts as catalyst. It is also possible to use the metal-free polysalene dendrimer, optionally incorporated into a matrix, and a suitable metal salt separately in a laundry detergent formulation. By dissolving the laundry detergent formulation, the reactants are able to meet and form the catalyst. Preference is given to the compounds of the formula I which contain the groups A.
Particular preference is given to the compounds and the metal complexes thereof 4-cascade:ethylenediamine [4]:(1-azabutylidene):2-methinephenol, 8-cascade:ethylenediamine[4]:(1-azabutylidene)
2
:2-methinephenol, 16-cascade:ethylenediamine[4]:(1-azabutylidene)
3
:2-methinephenol, 32-cascade:ethylenediamine[4]:(1-azabutylidene)
4
:2-methinephenol.
Where appropriate, the dendrimer nomenclature proposed by Newkome has been used for dendritic compounds [G. R. Newkome, C. Morefield, F. Vögtle in Dendritic Macromolecules, V C H, Weinheim 1996].
Such dendrimers can be loaded with stoichiometrically different amounts of transition metal. In the maximum case, all nitrogen atoms of the dendrime

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