Electrochemical device having electrodes selectively coupled by a conductive member

The invention claimed is: 1. An optical element comprising: a lower substrate and an upper substrate disposed facing each other; a plurality of lower electrodes provided so as to be spread on a surface of the lower substrate that faces the upper substrate, and including at least first and second lower electrodes arranged adjacent in a first direction in the lower substrate plane; a plurality of upper electrodes provided so as to be spread on a surface of the upper substrate that faces the lower substrate, and including at least a first upper electrode that faces the first lower electrode and a second upper electrode that faces a portion of the first lower electrode and the second lower electrode; a conductive member that is sandwiched between the first lower electrode and the second upper electrode and that electrically connects the first lower electrode to the second upper electrode, the conductive member being selectively disposed in an overlap region in which the first lower electrode and the second upper electrode overlap when the first lower electrode and the second upper electrode are projected on a virtual plane parallel to the lower substrate or the upper substrate; an electrolyte layer that is disposed between the lower substrate and the upper substrate; and a low-resistance member that is disposed between the first lower electrode and the conductive member, and between the second upper electrode and the conductive member, and that has a lower resistivity than the first lower electrode and the second upper electrode, wherein the low-resistance member is provided, elongated beyond the conductive member in a second direction that crosses the first direction, in an overlap region in which the first lower electrode and the second upper electrode overlap, and is narrower in the first direction at a position beyond the conductive member than at a position where the conductive member is disposed. 2. The optical element according to claim 1 , further comprising: a first electrochemical layer that is formed on a surface of the lower electrode, and for which an optical state changes in accordance with whether the first electrochemical layer is in an oxidized state or in a reduced state. 3. The optical element according to claim 1 , further comprising: a second electrochemical layer that is formed on a surface of the upper electrode, and for which an optical state changes in accordance with whether the second electrochemical layer is in an oxidized state or in a reduced state.