Biobased membrane

What is claimed is: 1. Method of forming a bio-compatible impermeable membrane comprising the steps of: providing a composition consisting essentially of (i) water, (ii) a water-soluble anionic bio-degradable polymer obtained from bacteria, and (iii) platelet nanoparticles, wherein the water-soluble anionic bio-degradable polymer is in an amount of 1.5-10 wt %, wherein platelet nanoparticles are in an amount of 0.01-5 wt %, based on a total weight of the composition, wherein an amount (wt %) of water-soluble anionic bio-degradable polymer is larger than an amount of platelet nanoparticles, wherein an amount of platelet nanoparticles and water-soluble anionic bio-degradable polymer is 1.51-10 wt. %, applying the composition onto a surface under ambient conditions, the surface providing polyvalent cations, and reacting the water-soluble anionic bio-degradable polymer and polyvalent cations, thereby forming the bio-compatible impermeable membrane on the surface. 2. The method according to claim 1 , wherein the surface is pre-treated and/or pre-shaped. 3. The method according to claim 1 , wherein the surface is one or more of concrete, cement material, or brick. 4. The method according to claim 1 , wherein the composition is applied at least once by one or more of spraying, brushing, nebulizing, or pouring, and wherein the composition is applied directly after casting cement or concrete. 5. A method of protecting a surface from degradation by performing a method according to claim 1 , such as wherein the surface is protected from one or more of drying, oxidizing, corroding, wearing, fouling, or dehydrating. 6. A flexible coating comprising polyvalent cations, water, and a water soluble anionic bio-degradable polymer, obtained by a method according to claim 1 . 7. One or more of concrete, cement material, or brick, comprising a water impermeable flexible polymer coating according to claim 6 . 8. An aqueous composition for forming a bio-compatible impermeable membrane on a surface wherein the surface is one or more of concrete, cement material, or brick, consisting essentially of: (i) as a balance water, (ii) a water-soluble anionic bio-degradable polymer obtained from bacteria, wherein the water-soluble anionic bio-degradable polymer when in contact with polyvalent cations under ambient conditions forms a gel, the water-soluble anionic bio-degradable polymer being dissolved in the water, and (iii) platelet nanoparticles, the platelet nanoparticles being suspended in the water, wherein the water-soluble anionic bio-degradable polymer is in an amount of 1.5-10 wt %, wherein the platelet nanoparticles are present in an amount of 0.01-5 wt %, based on a total weight of the composition, wherein an amount (wt %) of water-soluble anionic bio-degradable polymer is larger than an amount of platelet nanoparticles, wherein an amount of platelet nanoparticles and water-soluble anionic bio-degradable polymer is 1.51-10 wt. %, wherein the water-soluble anionic bio-degradable polymer is selected from anionic polysaccharides or acidic biopolymers, wherein the polyvalent cation is one or more of calcium, iron, copper, strontium, cobalt, aluminium, zinc, magnesium, or nickel, and wherein the platelet nanoparticles are one or more of a natural or artificial clay, or a silicate mineral. 9. The composition according to claim 8 , wherein the platelet nanoparticles are present in an amount of 0.1-5 wt %.