LITHIUM POTASSIUM ELEMENT OXIDE COMPOUNDS AS Li SUPER-IONIC CONDUCTOR, SOLID ELECTROLYTE AND COATING LAYER FOR LITHIUM METAL BATTERY AND LITHIUM-ION BATTERY

1 . A solid-state lithium ion electrolyte, comprising: at least one material selected from the group of materials consisting of compounds of formulae (I), (II), (III) and (IV): Li y (M1) x1 KMO 6   (I) wherein M is selected from the group consisting of Ir, Sb, I, Nb and W, x1 is a number from greater than 0 to less than 6, y is a value such that charge neutrality of the formula is obtained, and M1 is an aliovalent substitute for Li and is at least one element different from Li selected from elements of groups 1, 2, 13 and transition metals; Li y K 1-x2 (M2) x2 MO 6   (II) wherein x2 is a number from greater than 0 to less than I, y is a value such that charge neutrality of the composite formula is obtained, and M2 is an aliovalent substitute for K and is at least one element different from K selected from elements of groups 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 and 13; Li y KM 1-x3 (M3) x3 O 6   (III) wherein x3 is a number from greater than 0 to less than 1, y is a value such that charge neutrality of the formula is obtained, and M3 is an aliovalent substitute for M and is at least one element different from M selected from elements of groups 1-13; and Li 6 KMO 6   (IV). 2 . The solid state lithium ion electrolyte according to claim 1 , wherein a lithium ion (Li + ) conductivity of the solid state lithium ion electrolyte is from 10 −3 to 22 mS/cm at 300K. 3 . The solid state lithium ion electrolyte according to claim 1 , wherein an activation energy of the material is from 0.15 to 0.50 eV. 4 . The solid state lithium ion electrolyte according to claim 1 , wherein the material comprises a trigonal structure. 5 . The solid state lithium ion electrolyte according to claim 1 wherein the compound is of formula (IVa): Li 6 KIrO 6   (IVa) wherein an X-ray Diffraction Analysis obtained based on Cu-Kα radiation with wavelength of 1.54184 Å. of the material comprises the following peaks having an intensity of 10 or more relative to the peak of highest intensity being 100: Peak Position Relative Intensity 17.669 100.00 21.686 97.25 23.106 57.45 28.110 40.92 35.777 21.83 35.780 10.33 38.032 23.92 42.224 63.66 44.194 14.00 44.202 17.90 47.955 17.72 53.204 15.27 54.870 18.76 53.117 10.18 58.119 10.57 59.698 13.15 62.771 18.41 62.780 11.22 68.715 10.15 6 . The solid state lithium ion electrolyte according to claim 1 wherein the compound is of formula (IVb): Li 6 KNbO 6   (IVb) wherein an X-ray Diffraction Analysis obtained based on Cu-Kα radiation with wavelength of 1.54184 Å. of the material comprises the following peaks having an intensity of 10 or more relative to the peak of highest intensity being 100: Peak Position Relative intensity 17.255 98.935 21.364 69.654 27.292 100.0 27.591 49.651 34.918 24.734 37.452 17.457 41.301 67.781 43.519 15.403 47.145 12.810 51.432 10.900 52.133 13.685 53.492 20.157 60.921 28.242 67.568 11.551 7 . The solid state lithium ion electrolyte according to claim 1 wherein the compound is of formula (IVc): Li 6 KSbO 6   (IVC) wherein an X-ray Diffraction Analysis obtained based on Cu-Kα radiation with wavelength of 1.54184 Å. of the material comprises the following peaks having an intensity of 10 or more rel