Multilayer electronic component

What is claimed is: 1 . A multilayer electronic component comprising: a multilayer body comprising multiple inner electrodes and multiple dielectric layers alternately stacked, and comprising a first surface and a second surface opposed to each other in a stacking direction and a wall surface facing a specified direction intersecting the stacking direction; multiple underlying electrodes; and multiple outer electrodes, wherein the multiple outer electrodes comprise a first outer electrode extending from the wall surface at least onto the first surface, the first outer electrode comprises: a first portion connected to an inner electrode exposed on the wall surface, out of the multiple inner electrodes; and a second portion connected to an underlying electrode located on the first surface, out of the multiple underlying electrodes, and an average particle diameter of metal particles in the first portion, at a position that is a first specified distance away in the specified direction from a surface on a multilayer body side, where the multilayer body is located, is smaller than an average particle diameter of metal particles in the second portion, at a position that is the first specified distance away in the stacking direction from a surface on the multilayer body side. 2 . The multilayer electronic component according to claim 1 , wherein the first outer electrode is composed of a plating layer. 3 . The multilayer electronic component according to claim 1 , wherein the inner electrode connected to the first outer electrode contains Ni as a major component, and the first outer electrode contains Cu as a major component. 4 . The multilayer electronic component according to claim 1 , wherein an average particle diameter of the metal particles contained in the second portion is between 1.1 times and 2.7 times an average particle diameter of the metal particles contained in the first portion, inclusive. 5 . The multilayer electronic component according to claim 1 , wherein in the first portion, a particle diameter of the metal particles contained in the first portion decreases as distance to the multilayer body decreases. 6 . The multilayer electronic component according to claim 1 , wherein in the second portion, a particle diameter of the metal particles contained in the second portion increases as distance to the multilayer body decreases. 7 . The multilayer electronic component according to claim 1 , wherein an average particle diameter of metal particles contained in the underlying electrode connected to the first outer electrode is larger than an average particle diameter of metal particles contained in the inner electrode connected to the first outer electrode. 8 . The multilayer electronic component according to claim 1 , wherein an average particle diameter of metal particles in the underlying electrode connected to the first outer electrode, at a position a second specified distance away in the stacking direction from a surface of the underlying electrode opposite to a surface on the multilayer body side is larger than an average particle diameter of metal particles in the inner electrode connected to the first outer electrode, at a position the second specified distance away in the specified direction from a surface of the multilayer body. 9 . The multilayer electronic component according to claim 1 , wherein a dimension in the stacking direction is smaller than a dimension in the specified direction and smaller than a dimension in a width direction intersecting both the stacking direction and the specified direction. 10 . The multilayer electronic component according to claim 1 , wherein the multilayer body comprises: a first side surface and a second side surface opposed to each other in a longitudinal direction orthogonal to the stacking direction; and a third side surface and a fourth side surface opposed to each other in a width direction orthogonal to the stacking direction and the longitudinal direction, the multiple inner electrodes comprise: multiple first inner electrodes exposed at a first corner portion extending over the first side surface and the third side surface and a second corner portion extending over the second side surface and the fourth side surface; and multiple second inner electrodes exposed at a third corner portion extending over the first side surface and the fourth side surface and a fourth corner portion extending over the second side surface and the third side surface, the multiple underlying electrodes comprise: a first underlying electrode located on the first surface and close to the first corner portion; a second underlying electrode located on the first surface and close to the second corner portion; a third underlying electrode located on the first surface and close to the third corner portion; and a fourth underlying electrode located on the first surface and close to the fourth corner portion, the multiple outer electrodes comprise: the first outer electrode extending from the first corner portion at least onto the first surface and connected to the multiple first inner electrodes and the first underlying electrode; a second outer electrode extending from the second corner portion at least onto the first surface and connected to the multiple first inner electrodes and the second underlying electrode; a third outer electrode extending from the third corner portion at least onto the first surface and connected to the multiple second inner electrodes and the third underlying electrode; and a fourth outer electrode extending from the fourth corner portion at least onto the first surface and connected to the multiple second inner electrodes and the fourth underlying electrode, each of the first outer electrode, the second outer electrode, the third outer electrode, and the fourth outer electrode comprises: the first portion connected to the multiple first inner electrodes or the multiple second inner electrodes; and the second portion connected to one of the first underlying electrode, the second underlying electrode, the third underlying electrode, and the fourth underlying electrode, and an average particle diameter of the metal particles contained in the first portion is smaller than an average particle diameter of the metal particles contained in the second portion. 11 . The multilayer electronic component according to claim 1 , wherein the multilayer body comprises: a first end surface and a second end surface opposed to each other in a longitudinal direction orthogonal to the stacking direction; and a first side surface and a second side surface opposed to each other in a width direction orthogonal to the stacking direction and the longitudinal direction, the multiple inner electrodes comprise: multiple first inner electrodes exposed on the first end surface; and multiple second inner electrodes exposed on the second end surface, the multiple underlying electrodes comprise: a first underlying electrode located on the first surface and close to the first end surface; and a second underlying electrode located on the first surface and close to the second end surface, the multiple outer electrodes comprise: the first outer electrode extending from the first end surface at least onto the first surface and connected to the multiple first inner electrodes and the first underlying electrode; and a second outer electrode extending from the second end surface at least onto the first surface and connected to the multiple second inner electrodes and the second underlying electrode, each of the first outer electrode and the second outer electrode comprises