What is sodium alginate analyzed by experts?

　　Sodium alginate, also known as sodium alginate, kelp gum, fucoidan and alginate, is a natural polysaccharide carbohydrate extracted from kelp. Widely used in food, medicine, textile, printing and dyeing, papermaking, daily chemical products, etc., as thickener, emulsifier, stabilizer, adhesive, sizing agent, etc. Since 1980s, the application of sodium alginate in food has been expanded. Sodium alginate is not only a safe food additive, but also a base material of bionic food or therapeutic food. Because it is actually a natural cellulose, it can slow down the absorption of fatty sugar and bile salt, reduce serum cholesterol, triglyceride and blood sugar, and prevent modern diseases such as hypertension, diabetes and obesity. It can inhibit the accumulation of harmful metals such as strontium, cadmium and lead in the intestine. It is precisely because of these important functions that sodium alginate has been paid more and more attention at home and abroad. Japanese call the food rich in sodium alginate "longevity food", while Americans call it "wonderful food additive".

Its mild sol-gel process and good biocompatibility make alginic acid suitable as microcapsules for releasing or embedding drugs, proteins and cells. When the carboxyl group at the 6 th position is combined with sodium ion, Sodium Alginate is formed. There are many classification methods of sodium alginate. Structurally, it can be divided into three types: high G/M ratio, medium G/M ratio and low G/M ratio. From the viscosity, it can be divided into low viscosity, medium viscosity and high viscosity sodium alginate. In terms of purity, it can be divided into three levels: industrial, edible and medical. Different qualities of sodium alginate have great influence on the structure of colloidal beads. Generally speaking, sodium alginate with high G/M ratio and low viscosity is suitable for preparing colloidal beads. Moreover, when the colloidal beads are applied to the field of bioengineering, medical grade sodium alginate should be selected.

　　manufacturing technique

　　The technological process of sodium alginate is as follows: dry or wet seaweed (algae) is crushed, washed with water to remove impurities, extracted with strong alkali water and clarified to obtain crude alginate solution, precipitated with calcium chloride to obtain colored calcium alginate, decolorized and deodorized, treated with acid to remove soluble impurities to obtain alginate precipitate, reacted with sodium carbonate to obtain sodium alginate, and then dried, crushed and sieved to obtain sodium alginate powder.

　　chemical property

　　compose

　　Sodium alginate (C6H7O8Na)n is mainly composed of the sodium salt of alginic acid, which is a copolymer composed of a-L- mannuronic acid (M unit) and b-D- guluronic acid (G unit) connected by 1,4- glycosidic bond and composed of different proportions of GM, MM and GG fragments.

　　molecular weight

　　The molecular weight of commercial sodium alginate is usually dispersed like polysaccharide. Therefore, the molecular weight of a sodium alginate usually represents the average value of all molecules in this group. The most common ways to express molecular weight are number average molecular weight (Mn) and weight average molecular weight (Mw). These two are defined by the following formula:

　　Where Ni= the number of molecules with a specific molecular weight Mi, and Wi= the weight of molecules with a specific molecular weight Mi.

　　In a polydisperse molecular group, MW is usually > Mn. The coefficient of Mw/Mn is dispersion index, and the index of sodium alginate commodity is in the classical range of 1.5 ~ 2.5. The most commonly used method to determine molecular weight is based on intrinsic viscosity and light scattering measurement.

　　structural formula

　　The molecular formula is (c6h7nao6) x.

　　pH value

　　Sodium alginate is slightly soluble in water and insoluble in most organic solvents. It is soluble in alkaline solution, which makes the solution sticky. Sodium alginate powder becomes wet when it meets water, and the hydration of particles makes its surface sticky. Then the particles quickly stick together to form a lump, which is slowly completely hydrated and dissolved. If the water contains other compounds that compete with alginate for hydration, sodium alginate is more difficult to dissolve in water. Sugar, starch or protein in water will reduce the hydration rate of sodium alginate, so it is necessary to prolong the mixing time. Salts of monovalent cations (such as NaCl) have similar effects when the concentration is higher than 0.5%. The pH value of sodium alginate in 1% distilled water solution is about 7.2.

　　stability

　　Sodium alginate has hygroscopicity, and the amount of water in equilibrium depends on relative humidity. The dried sodium alginate is quite stable in a well-sealed container at 25℃ and below. Sodium alginate solution is stable at pH 5 ~ 9. The degree of polymerization (DP) and molecular weight are directly related to the viscosity of sodium alginate solution, and the decrease of viscosity during storage can be used to measure the degree of depolymerization of sodium alginate. The stability of sodium alginate with high polymerization degree is not as good as that of sodium alginate with low polymerization degree. It is reported that sodium alginate can be hydrolyzed by proton catalysis, which depends on time, pH and temperature. Propylene glycol alginate solution is stable at room temperature and pH 3 ~ 4. When the pH is less than 2 or greater than 6, the viscosity will quickly decrease even at room temperature.