Lithium composite oxide sintered body plate

1 . A lithium composite oxide sintered body plate used for a positive electrode of a lithium secondary battery, comprising: a porous structure in which a plurality of primary particles of a lithium composite oxide having a layered rock-salt structure are bonded, wherein a porosity is 15 to 50%, a ratio of said primary particles whose inclination angle between a (003) plane of said plurality of primary particles and a plate surface of said lithium composite oxide sintered body plate is more than 0° and 30° or less is 60%, one or more additive elements selected from Nb, Ti, W are contained, and an addition amount of said one or more additive elements to an entire of said lithium composite oxide sintered body plate is 0.01 wt % or more and 2.0 wt % or less. 2 . The lithium composite oxide sintered body plate according to claim 1 , wherein a normalized addition amount being a ratio of said addition amount of said one or more additive elements to a specific surface area of said lithium composite oxide sintered body plate, is more than 0 wt %·g/m 2 and 1.5 wt %·g/m 2 or less. 3 . The lithium composite oxide sintered body plate according to claim 1 , wherein there exists a crystal phase containing said one or more additive elements and having lower electron conductivity than that of said composite oxide while having lithium ion conductivity, in at least a part of a surface of said primary particles constituting said plate surface and a surface for defining open pores of said lithium composite oxide sintered body plate. 4 . The lithium composite oxide sintered body plate according to claim 1 , wherein there exists a crystal phase containing said additive element and having lower electron conductivity than that of said composite oxide while having lithium ion conductivity, in at least a part of a surface of said primary particles, said surface of said primary particles constituting a contact surface of said lithium composite oxide sintered body plate with an electrolytic solution when said lithium composite oxide sintered body plate is used as said positive electrode of said lithium secondary battery. 5 . The lithium composite oxide sintered body plate according to claim 1 , wherein the additive element is Nb, and the lithium composite oxide is LiCoO 2 . 6 . The lithium composite oxide sintered body plate according to claim 1 , wherein the additive element is Ti, and the lithium composite oxide is LiCoO 2 . 7 . The lithium composite oxide sintered body plate according to claim 2 , wherein there exists a crystal phase containing said one or more additive elements and having lower electron conductivity than that of said composite oxide while having lithium ion conductivity, in at least a part of a surface of said primary particles constituting said plate surface and a surface for defining open pores of said lithium composite oxide sintered body plate. 8 . The lithium composite oxide sintered body plate according to claim 2 , wherein there exists a crystal phase containing said additive element and having lower electron conductivity than that of said composite oxide while having lithium ion conductivity, in at least a part of a surface of said primary particles, said surface of said primary particles constituting a contact surface of said lithium composite oxide sintered body plate with an electrolytic solution when said lithium composite oxide sintered body plate is used as said positive electrode of said lithium secondary battery. 9 . The lithium composite oxide sintered body plate according to claim 2 , wherein the additive element is Nb, and the lithium composite oxide is LiCoO 2 . 10 . The lithium composite oxide sintered body plate according to claim 3 , wherein the additive element is Nb, and the lithium composite oxide is LiCoO 2 . 11 . The lithium composite oxide sintered body plate according to claim 4 , wherein the additive element is Nb, and the lithium composite oxide is LiCoO 2 . 12 . The lithium composite oxide sintered body plate according to claim 7 , wherein the additive element is Nb, and the lithium composite oxide is LiCoO 2 . 13 . The lithium composite oxide sintered body plate according to claim 8 , wherein the additive element is Nb, and the lithium composite oxide is LiCoO 2 . 14 . The lithium composite oxide sintered body plate according to claim 2 , wherein the additive element is Ti, and the lithium composite oxide is LiCoO 2 . 15 . The lithium composite oxide sintered body plate according to claim 3 , wherein the additive element is Ti, and the lithium composite oxide is LiCoO 2 . 16 . The lithium composite oxide sintered body plate according to claim 4 , wherein the additive element is Ti, and the lithium composite oxide is LiCoO 2 . 17 . The lithium composite oxide sintered body plate according to claim 7 , wherein the additive element is Ti, and the lithium composite oxide is LiCoO 2 . 18 . The lithium composite oxide sintered body plate according to claim 8 , wherein the additive element is Ti, and the lithium composite oxide is LiCoO 2 .