Inkjet recording medium

What is claimed is: 1. An inkjet recording medium, comprising: a substrate; an intermediate layer disposed on the substrate, the intermediate layer including: a binder; an inorganic pigment; and a pigment ink fixing agent chosen from divalent salts, multivalent salts, and combinations thereof; wherein the intermediate layer is a surface sizing layer including a greater amount of the binder than of the inorganic pigment; and an ink receiving layer disposed on the intermediate layer, the ink receiving layer including: a non-film forming polymer, wherein the non-film forming polymer has a glass transition temperature (T g ) ranging from about 80° C. to about 150° C.; a binder chosen from any of water dispersible binders or water soluble binders; and a pigment. 2. The inkjet recording medium as defined in claim 1 wherein the non-film forming polymer is i) a cationic polymer chosen from non-film forming cationic acrylic polymers and non-film forming cationic styrene-acrylic polymers, ii) an anionic polymer chosen from non-film forming anionic acrylic polymers and non-film forming anionic styrene-acrylic polymers, and iii) combinations thereof. 3. The inkjet recording medium as defined in claim 1 wherein: the non-film forming polymer is a cationic polymer having a zeta potential (ZP) ranging from about +1 mV to about +60 mV, or the non-film forming polymer is an anionic polymer having a zeta potential (ZT) ranging from about −1 mV to about −60 mV. 4. The inkjet recording medium as defined in claim 1 wherein the substrate is chosen from pulp-based substrates, fiber-based substrates, polymer-based substrates, film-based substrates, photobase substrates, and coated substrates. 5. The inkjet recording medium as defined in claim 1 wherein the ink receiving layer has a pH ranging from about 3 to about 9. 6. An inkjet recording medium, comprising: a substrate; an intermediate layer disposed on the substrate, wherein the intermediate layer is a surface sizing layer having a coat weight ranging from about 1 gsm to about 5 gsm and wherein the intermediate layer includes: a binder; an inorganic pigment; and a pigment ink fixing agent chosen from divalent salts, multivalent salts, and combinations thereof; wherein the binder is present in an amount greater than an amount of the inorganic pigment, the binder amount ranging from about 40 wt % to about 98 wt % of the surface sizing layer, and the inorganic pigment amount ranging from about 1 wt % to about 20 wt % of the surface sizing layer; and wherein the pigment ink fixing agent is present in an amount ranging from about 1 wt % to about 50 wt % of the surface sizing layer; and an ink receiving layer disposed on the intermediate layer, the ink receiving layer including: a non-film forming polymer, wherein the non-film forming polymer has a glass transition temperature (T g ) ranging from about 80° C. to about 150° C.; a binder chosen from any of water dispersible binders or water soluble binders; and a pigment. 7. The inkjet recording medium as defined in claim 1 wherein: the non-film forming polymer of the ink receiving layer is present in an amount ranging from about 20 wt % to about 87 wt % of the ink receiving layer; the binder of the ink receiving layer is present in an amount ranging from about 3 wt % to about 15 wt % of the ink receiving layer; and the pigment of the ink receiving layer is present in an amount ranging from about 10 wt % to about 77 wt % of the ink receiving layer. 8. The inkjet recording medium as defined in claim 1 wherein the ink receiving layer has a coat weight ranging from about 0.3 gsm to about 10 gsm. 9. The inkjet recording medium as defined in claim 1 wherein: the binder of the intermediate layer is chosen from a water dispersible latex and a water soluble binder; the inorganic pigment of the intermediate layer is chosen from kaolin clays, calcined clays, engineered clays, treated clays, calcium carbonates, talc, titanium dioxide, zeolites, calcium sulfates, silicas, aluminas, silicates, aluminum trihydrate, and combinations thereof; and the pigment ink fixing agent of the intermediate layer is chosen from a divalent or multivalent salt of any metal in Periodic Table Group I, a divalent or multivalent salt of any metal in Periodic Table Group II, a divalent or multivalent salt of any metal in Periodic Table Group III, and a divalent or multivalent salt of any transition metal. 10. The inkjet recording medium as defined in claim 1 wherein: the binder of the ink receiving layer is a water dispersible latex; and the pigment of the ink receiving layer is chosen from kaolin clays, calcined clays, engineered clays, calcium carbonates, talc, titanium dioxide, zeolites, calcium sulfates, silicas, aluminas, silicates, aluminum trihydrate, and combinations thereof. 11. A method of making an inkjet recording medium, comprising: forming an intermediate layer on a surface of a substrate, the intermediate layer including a binder, an inorganic pigment, and a pigment ink fixing agent, the pigment ink fixing agent being chosen from divalent salts and multivalent salts, wherein the intermediate layer is a surface sizing layer including a greater amount of the binder than of the inorganic pigment; and forming an ink receiving layer on the intermediate layer, the ink receiving layer including: a non-film forming polymer chosen from an anionic non-film forming polymer and a cationic non-film forming polymer, wherein the non-film forming polymer has a glass transition temperature (T g ) ranging from about 80° C. to about 150° C.; a binder chosen from any of water dispersible binders or water soluble binders; and an inorganic pigment. 12. The method as defined in claim 11 wherein the cationic non-film forming polymer is chosen from non-film forming cationic acrylic polymers and non-film forming cationic styrene-acrylic polymers, and wherein the cationic non-film forming polymer has a zeta potential (ZP) ranging from about +1 mV to about +60 mV. 13. The method as defined in claim 11 wherein the anionic non-film forming polymer is chosen from non-film forming anionic acrylic polymers and non-film forming anionic styrene-acrylic polymers, and wherein the anionic non-film forming polymer has zeta potential (ZT) ranging from about −1 mV to about −60 mV. 14. The inkjet recording medium as defined in claim 1 , further including an additional layer disposed between the substrate and the intermediate layer, wherein the additional layer includes an additional layer binder and an additional layer inorganic pigment. 15. An inkjet recording medium, comprising: a substrate; an intermediate layer disposed on the substrate, the intermediate layer including: a binder; an inorganic pigment; and a pigment ink fixing agent chosen from divalent salts, multivalent salts, and combinations thereof; and an ink receiving layer disposed on the intermediate layer, the ink receiving layer including: a non-film forming polymer, wherein the non-film forming polymer has a lass transition temperature (T g ) ran in from about 80° C. to about 150° C. a binder chosen from any of water dispersible binders or water soluble binders; and a pigment; wherein: the binder of the intermediate layer is a combination of styrene-butadiene copolymer latex and polyvinyl alcohol; the pigment ink fixing agent is magnesium sulfate or calcium chloride; and the inorganic pigment is ground calcium carbonate or a combination of ground calcium carbonate, calcined clay, and kaolin clay. 16. The inkjet recording medium as define