Screening of a strongly charged macroion by oppositely charged colloidal particles, micelles, or short polyelectrolytes is considered. Due to strong lateral repulsion such multivalent counterions form a strongly correlated liquid at the surface of the macroion. This liquid provides correlation induced attraction of multivalent counterions to the macroion surface. As a result even a moderate concentration of multivalent counterions in the solution inverts the sign of the net macroion charge. We show that at high concentration of monovalent salt the absolute value of inverted charge can be larger than the bare one. This giant inversion of charge can be observed in electrophoresis.PACS numbers: 87.14Gg, 87.16.Dg, 87.15.Tt Charge inversion is a phenomenon in which a charged particle (a macroion) strongly binds so many counterions in a water solution, that its net charge changes sign. As shown below the binding energy of counterion with large charge Z is larger than k B T , so that this net charge is easily observable; for instance, it is the net charge that determines linear transport properties, such as particle drift in a weak field electrophoresis. Charge inversion has been observed 1 in polyelectrolyte-micelle system and is possible for a variety of other systems, ranging from solid surface of mica or lipid membranes, to DNA or actin.Charge inversion is of special interest for delivery of genes to the living cell for the purpose of gene therapy. The problem is that both bare DNA and a cell surface are negatively charged and repel each other. The goal is to screen DNA in such a way that the resulting complex is positive 2 .Theoretically, charge inversion can be also thought of as an over-screening. Indeed, the simplest screening atmosphere, familiar from linear Debye-Hückel theory, compensates at any finite distance only a part of the macroion charge. It can be proven that this property holds also in non-linear Poisson-Boltzmann (PB) theory. The statement that the net charge preserves sign of the bare charge agrees with the common sense. One can think that this statement is even more universal than results of PB equation. It was shown 3-5 , however, that this presumption of common sense fails for screening by Z-valent counterions (Z-ions), such as charged colloidal particles, micelles, or short polyelectrolytes, because there are strong lateral correlations between them when they are bound to the surface of a macroion. These correlations are beyond the mean field PB theory, and charge inversion is their most spectacular manifestation.Charge inversion has attracted a significant attention in the last couple of years 6 . Our goal in the present paper is to provide a simple physical explanation of charge inversion and to show that in the most practical case, when both Z-ions and monovalent salt, such as NaCl, are present, not only charge sign may flip, but the inverted charge can become even larger in absolute value than the bare charge, thus giving rise to giant charge inversion.Let us demonstrate the role of la...
