Because the bacterial contamination causes various losses in the economic and the human [1–6], several works were devoted to reduce the effects of these contaminations. The efforts of the researchers directed intwo direction, the first one is take different protection and the second is using different materials to restrict the spread of the bacterial effects. In this field, different attempts were done using organic, inorganic, organomettalic materials [7–9] and ores [10] to minimize the damage effects of the bacterial. The main effects of the researches focused on low cost materials and simply application as well as have high efficiency to reduce the growth of the bacterial. For these reasons, the first part of our works devoted to use the metal organic frame work (MOF) compound as antibacterial materials because it have many advantages in this field such as it found in a frame works shape, high surface area, high pore size, low density and have different active functional group [11, 12]. The results of antibacterial evaluation against pathogenic Gram-positive bacteria (Bacillus subtilis ATCC6633,Lactobacillus cereus ATCC 14579 and Staphylococcusaureus ATCC29213), Gram-negative bacteria (Escherichia coli ATCC 25922 and Salmonella enterica ATCC 25566) also gram negative against some bacteria indicate that among the antibacterial materials, the Cu-MOF have a good antibacterial effects. Moreover, the bioactivity an effect of MOFs increases by improvement its structural through incorporated some melamine molecules. The antibacterial effects of the MOFs and that improved return to the nature of the chemical and morphological structures.
On the other hand, through our attention with the reducing the antimicrobial effects, diatomite were used as a raw material or that incorporated with some cations [10]. Also, the diatomite unit shows antibacterial effects againstsome bacteria and fungi. These effects were explained in the light of chemical and structure of the diatomite. Due to the properties of the diatomite such as large specific surface area, porosity and surface hydroxyl group, it can be as suppuration to the MOFs for uses in the antibacterial effects. It is noteworthy that several modifications for MOFs or diatomite by using physical, chemical, radiation and other treatments were used [11–24]. For the above reasons, the present work is devoted to study the effects of the incorporated materials, MOFs and diatomite on the resistivity of some bacteria and fungi.