Materials including alkyl diamine-substituted aryl compounds, methods of making, and methods of separating co2

Therefore, the following is claimed: 1 . A material comprising: a porous structure comprising an alkyl diamine-substituted aryl compound supported by the porous structure. 2 . The material of claim 1 , wherein the organic loading of the alkyl diamine-substituted aryl compound on the porous structure is about 10% to 80% based on thermogravimetric analysis. 3 . The material of claim 1 , wherein the alkyl diamine-substituted aryl compound is physically impregnated in the porous structure. 4 . The material of claim 1 , wherein the alkyl diamine-substituted aryl compound is covalently bonded to the porous structure. 5 . The material of claim 1 , wherein the alkyl of the alkyl diamine-substituted aryl compound is an ethyl group, propyl group or butyl group. 6 . The material of claim 1 , wherein the alkyl diamine-substituted aryl compound includes 3 to 6 alkyl diamine moieties. 7 . The material of claim 1 , wherein the alkyl diamine-substituted aryl compound includes 3 alkyl diamine moieties. 8 . The material of claim 7 , wherein the 3 alkyl diamine moieties are in the 1, 3, and 5 positions on the alkyl diamine-substituted aryl compound. 9 . The material of claim 8 , wherein the 2 position, 4 position, 6 position, or any combination thereof of the aryl group each independently have a moiety selected from H or an alkyl. 10 . The material of claim 1 , wherein the alkyl of the alkyl diamine-substituted aryl compound is an ethyl group, propyl group or butyl group, wherein the alkyl diamine-substituted aryl compound includes 3 or 6 alkyl diamine moieties. 11 . The material of claim 1 , wherein the alkyl diamine-substituted aryl compound includes 6 alkyl diamine moieties. 12 . The material of claim 1 , wherein the porous structure is mesoporous. 13 . The material of claim 12 , wherein the alkyl diamine-substituted aryl compound is deposited on the surface of the porous structure, confined within the pore volume of the porous structure; or a combination thereof. 14 . The material of claim 12 , wherein the porous structure is selected from the group consisting of: silica, alumina, aluminosilicates, zirconia, germania, magnesia, titania, hafnia, mixed oxides composed of those elements, a combination thereof; or the porous structure is selected from the group consisting of: a porous metal organic framework, a porous polymer structure, and a porous carbon structure. 15 . A method of separating CO 2 from a gas mixture, comprising: exposing a gas mixture to a porous structure having supported therein an alkyl diamine-substituted aryl compound; and capturing the CO 2 in the porous structure; releasing the CO 2 from the porous structure. 16 . The method of claim 15 , wherein capturing is conducted at atmospheric pressure and at a temperature of about 0 to 50° C. 17 . The method of claim 15 , wherein the gas mixture comprises ambient air or a mixture of ambient air and flue gas. 18 . The method of claim 15 , wherein exposing includes flowing the gas mixture across the surface of the structure. 19 . The method of claim 15 , wherein releasing includes exposing the porous structure to steam, wherein the temperature of the steam is about 60° C. to 150° C. and the pressure of the steam is about 0.2 bara to 5 bara. 20 . The method of claim 15 , wherein capturing comprises: capturing about 10% to 100% of the CO 2 present in the gas mixture wherein the gas mixture has a concentration of about 100 ppm to 20% of CO 2 .