Polycondensate based water-reducer

The invention claimed is: 1. A polycondensate containing (I) at least a structural unit, which is an aromatic moiety bearing a polyether side chain comprising alkylene glycol units, with the proviso that the number of ethylene glycol units in the side chain is from 9 to 130 and that the content of ethylene glycol units is higher than 80 mol % with respect to all alkylene glycol units in the polyether side chain, (IIa) at least a structural unit, which is an aromatic moiety bearing at least one phosphoric acid monoester group and/or its salt, with the proviso that the molar ratio of (IIa):(I) is from 0.25 to 8, (IIb) at least a structural unit with a molar mass lower than 200 g/mol, which is an aromatic moiety with 6 carbon atoms bearing at least one hydroxy group attached to the aromatic moiety with the proviso that the molar ratio of (IIa):(IIb) is from 0.2 to 1.5, (III) at least a methylene unit (—CH 2 —), which is attached to two aromatic structural units Y, where aromatic structural units Y, independently of one another, are identical or different and are represented by structural unit (I), structural unit (IIa), structural unit (IIb) or optionally (IV) aromatic structural units of the polycondensate, which are different from structural unit (I), structural unit (IIa) and structural unit (IIb). 2. The polycondensate according to claim 1 , in which a monomer (M-IIb) is used for the introduction of the structural unit (IIb) in a polycondensation reaction leading to the polycondensate and the solubility of the monomer (M-IIb) in water is higher than 10 g/l at pH=4, 20° C. and atmospheric pressure. 3. The polycondensate according to claim 1 , in which the solubility in water of the polycondensate is higher than 300 g/l, the solubility of the polycondensate being measured at 20° C., atmospheric pressure and a pH of 4. 4. The polycondensate according to claim 1 , in which the structural units (I), (IIa) and (IIb) are represented by the following general formulae where A are identical or different and are represented by a substituted or unsubstituted aromatic or heteroaromatic compound having 5 to 10 atoms in the aromatic ring, where B are identical or different and are represented by N, NH or O, where n=2 if B=N and n=1 if B=NH or O, where R 1 and R 2 , independently of one another, are identical or different and are represented by a branched or straight-chain C 1 - to C 10 -alkyl radical, C 5 - to C 8 -cycloalkyl radical, aryl radical, heteroaryl radical or H, with the proviso that the content of ethylene glycol units is higher than 80 mol % with respect to all alkylene glycol units in the polyether side chain, where a are identical or different and are represented by an integer from 9 to 130, where X are identical or different and are represented by a branched or straight-chain C 1 - to C 10 -alkyl radical, C 5 - to C 8 -cycloalkyl radical, aryl radical, heteroaryl radical or H, where D are identical or different and are represented by a substituted or unsubstituted heteroaromatic compound having 5 to 10 atoms in the aromatic ring, where E are identical or different and are represented by N, NH or O, where m=2 if E=N and m=1 if E=NH or O, where R 3 and R 4 independently of one another, are identical or different and are represented by a branched or straight-chain C 1 - to C 10 -alkyl radical, C 5 - to C 8 -cycloalkyl radical, aryl radical, heteroaryl radical or H, where b are identical or different and are represented by an integer from 1 to 20, where M independently of one another is identical or different and is H or a cation equivalent, (GF-IIb) F—OH where F is represented by an aromatic moiety with 6 carbon atoms in the aromatic ring. 5. The polycondensate according to claim 1 , in which the structural unit (IIa) is an alkoxylated, hydroquinone phosphoric acid monoester according to the following general formula (GF-V) -[[M 2 O 3 P-(AO) p ]—O—C 6 H 2 —O-[(AO) p —PO 3 M 2 ]]-,  (GF-V) p is an integer from 1 to 20, A is an alkylene with 2 to 5 carbon atoms, M independently of one another is identical or different and is H or a cation equivalent. 6. The polycondensate according to claim 1 , in which the weight average molecular weight (Mw) of the polycondensate is from 8,000 g/mol to 70,000 g/mol. 7. The polycondensate according to claim 1 , in which the structural unit (I) is derived from an alkoxylated aromatic alcohol monomer bearing a hydroxyl group at the end of the polyether side chain. 8. The polycondensate according to claim 1 , in which the structural unit (I) is a phenyl poly alkylene glycol. 9. The polycondensate according to claim 1 , in which the structural unit (IIa) is derived from an aromatic alcohol monomer, which was in a first step alkoxylated, and the obtained alkoxylated aromatic alcohol monomer bearing a hydroxyl group at the end of the polyether side chain was in a second step phosphorylated to yield the phosphoric acid monoester group. 10. The polycondensate according to claim 1 , in which the molar ratio of the sum of structural unit(s) (I), (IIa) and (IIb) to the structural units (IV) is higher than 1/1. 11. The polycondensate according to claim 1 , where in (I) the number of ethylene glycol units in the side chain is from 9 to 50 and the content of ethylene glycol units is higher than 80 mol % with respect to all alkylene glycol units in the polyether side chain, and wherein the polycondensation degree of the polycondensate containing the units (I), (IIa), (IIb) and optionally (IV) is in the range from 10 to 75. 12. A process (A) for the production of the polycondensate according to claim 1 , wherein the following monomers are reacted in the presence of an acid catalyst: (I) a monomer comprising an aromatic moiety bearing a polyether side chain comprising alkylene glycol units, with the proviso that the number of ethylene glycol units in the side chain is from 9 to 130 and that the content of ethylene glycol units is higher than 80 mol % with respect to all alkylene glycol units in the polyether side chain, (IIa) a monomer comprising an aromatic moiety bearing at least one phosphoric acid monoester group and/or its salt, (IIb) a monomer comprising an aromatic moiety with 6 carbon atoms, bearing at least one hydroxy group attached to the aromatic moiety and (III) the monomer formaldehyde. 13. The process according to claim 12 , characterized in that the acid catalyst is present in the form of the monomer (IIb), which is an aromatic moiety with 6 carbon atoms, comprising at least one hydroxy group and at least one sulphonic acid group, in each case attached to the aromatic ring. 14. A building material mixture comprising one or more polycondensates according to claim 1 and one or more inorganic binders selected from the group of α-calcium sulfate hemihydrate, β-calcium sulfate hemihydrate, calcium sulfate in the form of anhydrite, slag sand, fly ash, fumed silica, blast furnace slag, natural pozzolanes, burnt oil shale, and cement, optionally wherein Portland cement is present in a proportion greater than 40% by weight based on the total amount of the inorganic binder. 15. A method comprising dispersing with the polycondensates according