Recovery method of useful resources in seawater and brine

What is claimed is: 1. A method for recovering a target element from seawater and brine, the method comprising: (a) exposing the seawater and brine to unbound particles of a magnetic adsorbent composite; (b) absorbing a first portion of the target element from the seawater and brine onto the magnetic absorbent composite to form loaded magnetic adsorbent composite particles; (c) treating the loaded magnetic adsorbent composite particles with a desorption solution to release a second portion of the target element from the loaded composite to form a mixture of a loaded desorption solution and desorbed magnetic adsorbent composite particles; (d) recovering a third portion of the target element from the loaded desorption solution. 2. The method of claim 1 , wherein: the magnetic adsorbent composite has a comprising a core comprising a magnetic particle, a binder layer coating the core; and an adsorbent material layer coating the binder layer. 3. The method of claim 1 , wherein: the target element is selected from a group consisting of lithium, strontium, boron, and mixtures thereof. 4. The method of claim 2 , wherein: the magnetic particle comprises at least one material selected from a group consisting of iron, nickel, cobalt, manganese, gadolinium, and oxides thereof, magnetite, maghemite, iron monoxide, iron nitride, cobalt platinum chromium alloy, barium ferrite alloy, aluminum manganese alloy, iron platinum alloy, iron palladium alloy, cobalt platinum alloy, and samarium cobalt alloy; the binder layer contains carbon; and the adsorbent material comprises at least one material selected from a group consisting of manganese and manganese oxides. 5. The method of claim 1 , wherein the magnetic adsorbent composite is prepared by a preparation method including: (1) mixing magnetic particles and a carbon precursor to prepare a treatment mixture; (2) heating the treatment mixture to a treatment temperature of from 150 to 250° C.; and thereby form a carbon-containing binder layer on the magnetic particles to form treated magnetic particles; (3) mixing the treated magnetic particles with an adsorbent material precursor solution to form a reaction mixture; and (4) maintaining the reaction mixture within a reaction temperature range and under a reaction pressure for a reaction period sufficient to form an absorbent material layer on the treated magnetic particles and obtain magnetic adsorbent composite particles. 6. The method of claim 5 , wherein: the treatment mixture comprises 50 to 300 parts by weight of the carbon precursor to every 100 parts by weight of the magnetic particles; the carbon precursor is selected from a group consisting of glucose, citric acid, and polyethylene glycol (PEG), and mixtures thereof; and wherein the preparation method further comprises includes separating the magnetic absorbent composite particles using magnetic force, washing the separated magnetic absorbent composite particles, and drying the washed magnetic absorbent composite particles. 7. The method of claim 5 , wherein: the adsorbent material precursor solution has an adsorbent material concentration of 0.01 to 1M; the reaction temperature range is from 20 to 25° C.; the reaction pressure is approximately 1 atm (10.1 N/cm 2 ); and the reaction period is at least 120 hours. 8. The method of claim 1 , further comprising: (e) separating the desorbed magnetic adsorbent composite particles from the resource desorption solution; (f) washing the separated desorbed magnetic absorbent composite particles; and (g) drying the washed magnetic absorbent composite particles. 9. The method of claim 1 , further comprising: removing dissolved magnesium and calcium from the seawater and brine before the seawater and brine are exposed to the magnetic absorbent composite. 10. A magnetic adsorbent composite comprising: a core comprising a magnetic particle having an exterior surface; a binder layer containing carbon coating the exterior surface of the core layer; and an adsorbent material layer coating the binder layer; wherein the binder layer has an average thickness of 5 to 20 nm and comprises between 5 and 15 wt % of a total weight of the magnetic adsorbent composite, and the absorbent material layer comprises between 10 and 35 wt % of the total weight of the magnetic adsorbent composite. 11. A method for recovering a target element from an aqueous saline solution, the method comprising: (a) exposing the aqueous saline solution to a plurality of unbound magnetic adsorbent composite particles; (b) absorbing a first portion of the target element from the aqueous saline solution onto the magnetic absorbent composite particles to form a loaded magnetic adsorbent composite particles; (c) treating the loaded magnetic adsorbent composite particles with a desorption solution to release a second portion of the target element from the loaded magnetic adsorbent composite particles to form a mixture of a loaded desorption solution and desorbed magnetic adsorbent composite particles; and (d) recovering a third portion of the target element from the loaded desorption solution.