Diureides and their use

Organic compounds -- part of the class 532-570 series – Organic compounds – Amino nitrogen containing

Reexamination Certificate

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C564S045000

Reexamination Certificate

active

06353134

ABSTRACT:

The present invention relates to fertilizers such as nitrogen fertilizers, in particular to known diureides and to novel diureides, to a process for their preparation, and to their use as slow-release fertilizers in agriculture and horticulture.
DD-A-264 372 and WO-A-87/05781 disclose similar malonic acid derivatives for delaying plant growth, and WO-A-87/05897 discloses similar malonic acid derivatives for increasing the yield. The compounds described therein are employed only at relatively low application rates, and their action is based on their property as growth regulators of reducing plant growth.
Chem. Ber. 1913, 46, page 1408 discloses oxalic acid diureide (R═M; X=single bond), EP-A-254 683 malonic acid diureide (R═H, X═CH
2
), J. Prakt. Chem. 1874, (2) 9, page 301 succinic acid diureide (R═H, X═CH
2
CH
2
), US-A-2,090,594 glutaric acid diureide (R═H, X═CH
2
CH
2
CH
2
), and Chem. Zentralbl. 1936, 107 (I), page 1218 fumaric acid diureide (R═H, X═CH═CH).
These compounds per se, and their synthesis, are known; their suitability and use as fertilizer, however, is novel.
It is an object of the present invention to find chemical compounds which are suitable as slow-release fertilizers and which are superior to the known substances with regard to their plant tolerance and duration of action. Furthermore intended was the possibility that the slow-release fertilizers comprise a plurality of plant nutrients, which they liberate in a delayed fashion.
We have found that this object is achieved by the use of diureides of dicarboxylic acids of the formula I
in which
R is hydrogen or SO
2
O

M

,
M

is lithium, sodium, potassium, cesium, ammonium, copper, silver, 0.5 iron, 0.5 calcium, 0.5 magnesium, 0.5 manganese, 0.5 zinc or 0.5 cobalt and
X is a saturated or monounsaturated, straight-chain or branched C
1
- to C
8
-alkyl which may be interrupted by oxygen or NH and which may have attached to it C
1
- to C
4
-alkoxy, hydroxyl and/or amino groups,
as slow-release fertilizers, novel diureides of the formula Ia
in which
R is SO
2
O

M

,
M

is lithium, sodium, potassium, cesium, ammonium, copper, silver, 0.5 iron, 0.5 calcium, 0.5 magnesium, 0.5 manganese, 0.5 zinc or 0.5 cobalt and
n is 1, 2, 3 or 4,
and a process for their preparation.
The compounds (Ia) of the invention can be prepared as follows:
Chlorosulfonyl isocyanate can be added to malonic diamide in a suitable solvent at a temperature of (−20) to +190° C., preferably (−15) to +50° C., especially preferably (−10) to 0° C. The resulting mixture can be poured onto ice, and an M

2
carbonate solution, i.e., M
2
CO
3
, where M is equivalent to M

as defined above, preferably a concentrated aqueous M

2
carbonate (M
2
CO
3
) solution can subsequently be added at a temperature of (−10) to +50° C., preferably 0 to 30° C., especially preferably at room temperature (18 to 28° C.).
Suitable solvents which can be used are customary aprotic solvents, for example ethers such as diethyl ether, methyl tert-butyl ether or aromatic hydrocarbons such as benzene, toluene and xylenes, or nitriles such as acetonitrile and propionitrile, or ketones such as acetone, ethyl methyl ketone and diethyl ketone, esters such as methyl formate, ethyl formate, methyl acetate and ethyl acetate, sulfoxides such as dimethyl sulfoxide or formamides such as dimethylformamide, ethylmethylformamide and diethylformamide, or mixtures of these; aprotic solvents which are miscible with water are preferred, and acetonitrile, acetone, methyl acetate and dimethylformamide are especially preferred.
The preparation can be continuous or batchwise.
The compounds are surprisingly sparingly soluble in water and are therefore suitable as a source for slowly released plant nutrients. In the soil, they are subjected to slow mineralization (see below), where all the nutrients contained are gradually made available to the plant. In contrast to the above-described customary slow-release fertilizers, these nutrients are, in the case of the compounds of the invention, not only nitrogen, but also sulfur and (depending on the counterion M

) potassium, calcium, magnesium, iron, copper, zinc or manganese. What makes the compounds particularly interesting is their potential use as a combined nutrient source with slow-release properties for main nutrients such as N and K, secondary nutrients such as sulfur, magnesium and calcium and trace elements such as iron, copper, manganese and zinc.
The novel diureides I of the invention can be employed in relatively high quantities per hectare and result in improved yields owing to increased plant growth. The plant nutrients which the substances comprise gradually become available to the plant and therefore act as slow-release fertilizers.
Slow-release fertilizers have many advantages over conventional mineral or organic fertilizers. They permit the nutrient supply to be tailored better to the plant's requirements and therefore improve nutrient utilization. This leads to lower nutrient losses, thus reducing pollution and increasing fertilizer efficiency. They also permit savings to be made on passes and inputs and thus on agronomical costs.
A slow-release action of fertilizers can be achieved by various routes. One possibility is to provide granular fertilizers which are readily soluble in water with a coating which is insoluble in water. The nutrients are liberated from such coated fertilizers in a delayed manner since the nutrients must first diffuse through the coat before they can be absorbed by the roots. Another possibility is to apply the nutrients in the form of chemical compounds in which they are initially not available to the plants. It is only after an earlier liberation step, for example a chemical hydrolysis, an enzymatic cleavage and/or a microbial conversion, has taken place that the nutrients exist in a form which can be utilized by the plants. The invention described herein relates to fertilizers of this second group, i.e. the chemical slow-release fertilizers. Examples of such chemical slow-release fertilizers are urea/aldehyde condensates such as Isodur (DE-A-32 41 445) or Ureaform (WO-A-97/05084).
The compounds I of the invention can be employed as slow-release fertilizers alone or as mixtures or in combination with other customary fertilizers or additions. For example, they can be formulated together with customary potash fertilizers (K fertilizers) such as potassium chloride, potassium sulfate and potassium nitrate, nitrogen fertilizers (N fertilizers) such as nitrochalk, ammonium sulfate, ammonium nitrate, ammonium nitrate sulfate and urea, nitrogen/phosphorus fertilizers (NP fertilizers) such as ammonium phosphates, nitrogen/potash fertilizers (NK fertilizers) such as potassium ammonium sulfate, phosphorus/potash fertilizers (PK fertilizers) such as potassium phosphate or nitrogen/phosphorus/potash fertilizers (NPK fertilizers) such as potassium ammonium phosphate, all of which may have a slow-release action or not.
In addition to the abovementioned main constituents, a fertilizer of the invention may additionally comprise secondary nutrients such as calcium, sulfur and/or magnesium and trace elements such as boron, iron, manganese, copper, zinc and/or molybdenum in minor amounts, i.e. usually in amounts of 0.5 to 5% by weight, and other additives such as crop protection agents, for example insecticides, herbicides or fungicides, growth regulators or nitrification inhibitors.
For use, they can be brought to a desired particle size in the known manner, for example by granulation or compacting. Fertilizers thus formulated generally have a maximum mean particle diameter of 0.5 to 10 mm, preferably 0.7 to 5 mm. Their apparent weight is usually 0.5 to 1.3 kg/l.
The fertilizers according to the invention are usually applied to agricultural and horticultural areas by the generally known methods (cf. Ullmann's Encyclopedia of Industrial Chemistry, 5

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