Electrochromic device capable of preventing damage of electrode

What is claimed is: 1 . An electrochromic device comprising: a lower substrate and an upper substrate configured to face each other with an electrolyte layer therebetween; an upper electrode provided between the electrolyte layer and the upper substrate; a lower electrode provided between the electrolyte layer and the lower substrate; an upper ion reactive layer provided between the upper electrode and the electrolyte layer; and a lower protection layer provided between the lower electrode and the electrolyte layer and configured to prohibit the lower electrode and the electrolyte layer from contacting. 2 . The electrochromic device of claim 1 , wherein the lower protection layer comprises a porous or membrane structure through which charges are movable between the electrolyte and the lower electrode. 3 . The electrochromic device of claim 1 , wherein the lower protection, layer comprises an inorganic material, an organic material, an oligomer, or a polymer. 4 . The electrochromic device of claim 1 , further comprising at least any one of an upper butter layer and an upper protection layer provided between the upper ion reactive layer and the electrolyte layer. 5 . The electrochromic device of claim 4 , wherein the upper protection layer is adjacent to the electrolyte layer and the upper buffer layer is provided between the upper ion reactive layer and the upper protection layer. 6 . The electrochromic device of claim 4 , wherein the upper protection layer comprises a porous or membrane structure through which charges are movable between the electrolyte layer and the upper electrode. 7 . The electrochromic device of claim 4 , wherein the upper buffer layer comprises graphene having a single layer or multi-layer structure. 8 . The electrochromic device of claim 1 , further comprising at least any one of a lower buffer layer and a lower ion reactive layer provided between the lower electrode and the lower protection layer. 9 . The electrochromic device of claim 8 , wherein the lower ion reactive layer is provided on the lower substrate and the lower buffer layer is provided between the lower ion reactive layer and the lower protection layer. 10 . The electrochromic device of claim 9 , wherein the lower buffer layer comprises graphene having a single layer or multi-layer structure. 11 . The electrochromic device of claim 1 , further comprising: at least any one of an upper buffer layer and an upper protection layer provided between the upper ion reactive layer and the electrolyte layer; and at least any one of a lower buffer layer and a lower ton reactive layer provided between the lower electrode and the lower protection layer. 12 . An electrochromic device comprising: an upper transparent substrate and lower transparent substrate facing each other; an electrolyte layer provided between the upper transparent substrate and the lower transparent substrate; a lower graphene electrode provided between the electrolyte layer and the lower transparent substrate; an upper graphene electrode provided between the electrolyte layer and the upper transparent substrate; an upper ion reactive layer provided between the upper graphene electrode and the electrolyte layer; and a lower protection layer provided, between the lower graphene electrode and the electrolyte layer and configured to separate the lower graphene electrode from the electrolyte layer. 13 . The electrochromic device of claim 12 , further comprising: an upper buffer layer and an upper protection layer provided between the electrolyte layer and the upper transparent substrate, wherein the upper buffer layer is provided between the electrolyte layer and the upper ion reactive layer, and the upper protection layer is provided between the electrolyte layer and the upper buffer layer. 14 . The electrochromic device of claim 12 , further comprising: a lower buffer layer and a lower Ion reactive layer provided between the electrolyte layer and the lower transparent substrate, wherein the lower buffer layer is provided between the electrolyte layer and the lower ion reactive layer and the lower ion reactive layer is provided between the lower buffer layer and the lower transparent substrate. 15 . The electrochromic device of claim 12 , further comprising: an upper buffer layer and an upper protection layer provided between the upper ion reactive layer and the electrolyte layer; and a lower buffer layer and a lower ion reactive layer provided between the lower graphene electrode and the lower protection layer. 16 . The electrochromic device of claim 15 , wherein the lower graphene electrode, the lower ion reactive layer, the lower buffer layer, and the lower protection layer are sequentially stacked on the lower transparent substrate along a direction from the lower transparent substrate toward the electrolyte layer, and wherein the upper graphene electrode, the upper ion reactive layer, the upper buffer layer, and the upper protection layer are sequentially stacked on the upper transparent substrate along a direction from the upper transparent substrate toward the electrolyte layer. 17 . An electrochromic device comprising: lower and upper transparent substrates configured to face each other with an electrolyte layer therebetween; a lower transparent electrode provided on the lower transparent substrate; an upper transparent electrode provided on the upper transparent substrate; an upper ion reactive layer provided on the upper transparent electrode and adjacent to the electrolyte layer; and a lower protection layer provided on the lower transparent electrode and adjacent to the electrolyte layer, wherein the lower protection layer comprises a porous membrane provided between the lower transparent electrode and the electrolyte layer and configured to separate the lower transparent electrode from the electrolyte layer. 18 . The electrochromic device of claim 17 , further comprising: an upper buffer layer and an upper protection layer provided between the lower transparent substrate and the electrolyte layer, wherein the upper protection, layer comprises a porous membrane provided between the upper buffer layer and the electrolyte layer, and the upper buffer layer comprises graphene provided between the upper protection layer and the upper ion reactive layer. 19 . The electrochromic device of claim 17 , further comprising: a lower buffer layer and a lower ion reactive layer provided between the lower transparent substrate and the electrolyte layer, wherein the lower protection layer comprises a porous membrane provided between the lower buffer layer and the electrolyte layer, and the lower ion reactive layer is provided between the lower protection layer and the lower transparent substrate. 20 . The electrochromic device of claim 17 , further comprising: an upper buffer layer and an upper protection layer provided between the upper transparent layer and the electrolyte layer; and a lower buffer layer and a lower ion reactive layer provided between the lower transparent substrate and the electrolyte layer, wherein the upper protection layer comprises a porous membrane provided between the upper buffer layer and the electrolyte layer and the upper buffer layer comprises graphene provided between the upper protection layer and the upper ion reactive layer, and wherein the lower protection layer comprises a porous membrane provided between the lower buffer layer and the electrolyte layer, and