A positive electrode active material for rechargeable batteries

1 - 15 . (canceled) 16 . A single-crystalline positive electrode active oxide material for rechargeable batteries, comprising lithium, oxygen, nickel, and at least one metal selected from the group comprising manganese and cobalt, wherein said positive electrode active material further comprises: i. aluminum and has an atomic ratio of Al to a total amount of Ni, Mn, and/or Co of 1.0 to 7.0, as determined by XPS analysis, and ii. fluorine and has an atomic ratio of F to a total amount of Ni, Mn, and/or Co of 0.5 to 6.0, as determined by XPS analysis. 17 . Positive electrode active material according to claim 16 , wherein: i. the atomic ratio of Al to a total amount of Ni, Mn, and/or Co is 1.2 to 4.5, as determined by XPS analysis, and ii. the atomic ratio of F to a total amount of Ni, Mn, and/or Co is 0.6 to 3.0, as determined by XPS analysis. 18 . Positive electrode active material according to claim 16 , wherein said positive electrode active material has an atomic ratio of Al to a total amount of Ni, Mn, and/or Co of 1.7 to 3.5, as determined by XPS analysis. 19 . Positive electrode active material according to claim 16 , wherein said positive electrode active material has an atomic ratio of F to a total amount of Ni, Mn, and/or Co of 1.5 to 2.5, as determined by XPS analysis. 20 . Positive electrode active material according to claim 16 , wherein said particles have an atomic content of nickel, relative to the total atomic content of Ni, Mn, Co in said particles, of 50 to 95%, as determined by ICP. 21 . Positive electrode active material according to claim 16 , wherein said particles have an atomic content of Al, relative to the total atomic content of Ni, Mn, Co in said particles, of 0.05 to 3.00%, as determined by ICP. 22 . Positive electrode active material according to claim 16 , wherein said particles have an atomic content of Co, relative to the total atomic content of Ni, Mn, Co in said particles, of 5.00 to 25.00%, as determined by ICP. 23 . Positive electrode active material according to claim 16 , wherein said particles have an atomic content of Mn, relative to the total atomic content of Ni, Mn, Co in said particles, of 0.00 to 70.00%, as determined by ICP. 24 . Positive electrode active material according to claim 16 , wherein said particle has a median particle size d50 of 2 μm to 9 μm, as determined by laser diffraction. 25 . Positive electrode active material according to claim 16 , having a leaked capacity Q total of at most 35 mAh/g, whereby said leaked capacity Q total is determined by a coin cell testing procedure at 80° C. using a 1 C current definition of 160 mA/g in the 4.4-3.0 V/Li metal window range. 26 . Positive electrode for lithium-ion secondary batteries comprising positive electrode active material and a polymer solid electrolyte, wherein said positive electrode active material is according to claim 16 . 27 . A polymer battery comprising a positive electrode active material according to claim 16 . 28 . An electrochemical cell comprising a positive electrode active material according to claim 16 . 29 . A process for manufacturing the positive electrode active material according to claim 16 comprising the steps of: mixing a single-crystalline, mixed metal oxide comprising lithium, nickel and at least one metal selected from the group comprising manganese and cobalt with a first Al-containing compound so as to obtain a first mixture; heating said first mixture at a first heating temperature of at least 500° C. and at most 1000° C. so as to obtain a first heat-treated mixture; mixing a fluorine-containing compound and a second Al-containing compound with said first heat-treated mixture so as to obtain a second mixture; and heating said second mixture at the second heating temperature of at least 200° C. and at most 500° C.