A sodium supplement material, a preparation method thereof, positive electrode plate, and sodium-ion battery. The sodium supplement material includes a sodium supplement agent body and first particles exposed on the surface of the sodium supplement agent body. In any 300 nm200 nm region on the surface of the sodium supplement material, the number of first particles ranges from 2 to 20. The first particles include one or more conductive agent particles and one or more catalyst particles.

A sodium supplement material, a preparation method thereof, positive electrode plate, and sodium-ion battery. The sodium supplement material includes a sodium supplement agent body and first particles exposed on the surface of the sodium supplement agent body. In any 300 nm200 nm region on the surface of the sodium supplement material, the number of first particles ranges from 2 to 20. The first particles include one or more conductive agent particles and one or more catalyst particles.

Embodiments relate to the field of hexagonal boron nitride (hBN). In particular, to an alkali metal (A) intercalated hBN material. The A-intercalated hBN is chemically active, electrically conducting, and superconducting. The A-intercalated hBN is spontaneously soluble in aprotic organic solvents to form dispersions of exfoliated reduced 2-dimensional hBN sheets in organic solvents. The dispersions of exfoliated reduced 2-dimensional hBN materials in organic solvents materials can be reacted with metal salts to form 2-dimensional hBN-supported metal and/or metal oxide nanoparticle composites. The solutions/dispersions of exfoliated reduced 2-dimensional hBN materials in organic solvents can be transferred to water or organic solvents to form stable aqueous and organic suspensions of 2-dimensional hBN.

Embodiments relate to the field of hexagonal boron nitride (hBN). In particular, to an alkali metal (A) intercalated hBN material. The A-intercalated hBN is chemically active, electrically conducting, and superconducting. The A-intercalated hBN is spontaneously soluble in aprotic organic solvents to form dispersions of exfoliated reduced 2-dimensional hBN sheets in organic solvents. The dispersions of exfoliated reduced 2-dimensional hBN materials in organic solvents materials can be reacted with metal salts to form 2-dimensional hBN-supported metal and/or metal oxide nanoparticle composites. The solutions/dispersions of exfoliated reduced 2-dimensional hBN materials in organic solvents can be transferred to water or organic solvents to form stable aqueous and organic suspensions of 2-dimensional hBN.

Embodiments relate to the field of hexagonal boron nitride (hBN). In particular, to an alkali metal (A) intercalated hBN material. The A-intercalated hBN is chemically active, electrically conducting, and superconducting. The A-intercalated hBN is spontaneously soluble in aprotic organic solvents to form dispersions of exfoliated reduced 2-dimensional hBN sheets in organic solvents. The dispersions of exfoliated reduced 2-dimensional hBN materials in organic solvents materials can be reacted with metal salts to form 2-dimensional hBN-supported metal and/or metal oxide nanoparticle composites. The solutions/dispersions of exfoliated reduced 2-dimensional hBN materials in organic solvents can be transferred to water or organic solvents to form stable aqueous and organic suspensions of 2-dimensional hBN.

Embodiments relate to the field of hexagonal boron nitride (hBN). In particular, to an alkali metal (A) intercalated hBN material. The A-intercalated hBN is chemically active, electrically conducting, and superconducting. The A-intercalated hBN is spontaneously soluble in aprotic organic solvents to form dispersions of exfoliated reduced 2-dimensional hBN sheets in organic solvents. The dispersions of exfoliated reduced 2-dimensional hBN materials in organic solvents materials can be reacted with metal salts to form 2-dimensional hBN-supported metal and/or metal oxide nanoparticle composites. The solutions/dispersions of exfoliated reduced 2-dimensional hBN materials in organic solvents can be transferred to water or organic solvents to form stable aqueous and organic suspensions of 2-dimensional hBN.