Electrochromic devices and methods
DCFirst Claim
1. An electrochromic device, comprisingan electrochromic structure including an elelectrochromic mate an electrochromic material, a counterelectrode and transporting means for transporting ions between said electrode and said counterelectrode,conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, at least one of said electrically conductive layers including a layer of an electrically conductive oxide,a substrate and a superstrate together cooperating to sandwich said electrochromic structure and said electrically conductive layers, andenhancing means for enhancing the transmission of radiation through said electrically conductive layers, said enhancing means including at least one optically transparent layer including silicon dioxide in surface contact with said substrate and at least one other optically transparent layer including silicon dioxide in surface contact with said superstrate.
5 Assignments
Litigations
0 Petitions
Accused Products
Abstract
Electrochromic devices are disclosed which may be used for large surface area applications. The devices utilize optical tuning to minimize optical interference between layers of the structure and to maximize uniform optical transparency. Optical tuning also enables transparent conductive oxide layers to be replaced by thin conductive metal layers, thereby reducing the overall thickness of these devices and facilitating the manufacturing process.
-
Citations
19 Claims
-
1. An electrochromic device, comprising
an electrochromic structure including an elelectrochromic mate an electrochromic material, a counterelectrode and transporting means for transporting ions between said electrode and said counterelectrode, conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, at least one of said electrically conductive layers including a layer of an electrically conductive oxide, a substrate and a superstrate together cooperating to sandwich said electrochromic structure and said electrically conductive layers, and enhancing means for enhancing the transmission of radiation through said electrically conductive layers, said enhancing means including at least one optically transparent layer including silicon dioxide in surface contact with said substrate and at least one other optically transparent layer including silicon dioxide in surface contact with said superstrate.
-
4. An electrochromic combination, comprising
a substrate, and an electrochromic device arranged on said substrate, said electrochromic device including an electrochromic structure having an electrode formed from an electrochromic material, a counterelectrode, lithium ions and transporting means for transporting said lithium ions between said electrode and said counterelectrode, conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, at least one of said electrically conductive layers between said electrochromic structure and said substrate including a transparent conductive oxide and excluding a metal layer, and enhancing means for enhancing the transmission of radiation through said at least one of said electrically conductive layers, said enhancing means including at least one optically transparent layer in surface contact with said substrate.
-
6. An electrochromic combination, comprising
a substrate, an electrochromic device arranged on said substrate, said electrochromic device including an electrochromic structure having an electrode formed from an electrochromic material, a counterelectrode and transporting means for transporting ions between said electrode and said counterelectrode, conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, at least one of said electrically conductive layers between said electrochromic structure and said substrate including a transparent conductive oxide and excluding a metal layer, and enhancing means for enhancing the transmission of radiation through said at least one of said electrically conductive layers, said enhancing means including at least one optically transparent layer including silicon dioxide in surface contact with said substrate, and a superstrate cooperating with said substrate to sandwich said electrochromic device.
-
7. An electrochromic combination, comprising
a substrate, and an electrochromic device arranged on said substrate, said electrochromic device including an electrochromic structure having an electrode formed from an electrochromic material, a counterelectrode, lithium ions and transporting means for transporting said lithium ions between said electrode and said counterelectrode, conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, and enhancing means for enhancing the transmission of radiation through said electrically conductive layers, said enhancing means including at least two optically transparent layers sandwiching said electrochromic structure and said electrically conductive layers, one of said optically transparent layers being in surface contact with said substrate.
-
10. An electrochromic combination, comprising
a substrate, an electrochromic device arranged on said substrate, said electrochromic device including an electrochromic structure having an electrode formed from an electrochromic material, a counterelectrode and transporting means for transporting ions between said electrode and said counterelectrode, conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, and enhancing means for enhancing the transmission of radiation through said electrically conductive layers, said enhancing means including at least two optically transparent layers sandwiching said electrochromic structure and said electrically conductive layers, one of said optically transparent layers being in surface contact with said substrate, at least one of said optically transparent layers including silicon dioxide, and a superstrate cooperating with said substrate to sandwich said electrochromic device.
-
12. An electrochromic combination, comprising
a substrate, and an electrochromic device arranged on said substrate, said electrochromic device including an electrochromic structure having an electrode formed from an electrochromic material, a counterelectrode, lithium ions and transporting means for transporting said lithium ions between said electrode and said counterelectrode, conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, at least one of said electrically conductive layers between said electrochromic structure and said substrate including a transparent oxide, and enhancing means for enhancing the transmission of radiation through said at least one of said electrically conductive layers, said enhancing means including at least one optically transparent layer interposed between said substrate and said at least one of said electrically conductive layers in surface contact with said transparent oxide.
-
13. An electrochromic combination, comprising
a substrate, an electrochromic device arranged on said substrate, said electrochromic device including an electrochromic structure having an electrode formed from an electrochromic material, a counterelectrode and transporting means for transporting ions between said electrode and said counterelectrode, conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, at least one of said electrically conductive layers between said electrochromic structure and said substrate including a transparent oxide, and enhancing means for enhancing the transmission of radiation through said at least one of said electrically conductive layers, said enhancing means including at least one optically transparent layer including silicon dioxide interposed between said substrate and said at least one of said electrically conductive layers in surface contact with said transparent oxide, and a superstrate cooperating with said substrate to sandwich said electrochromic device.
-
17. An electrochromic combination, comprising
a substrate, and an electrochromic device arranged on said substrate, said electrochromic device including an electrochromic structure having an electrode formed from an electrochromic material, a counterelectrode and transporting means consisting of only a single layer for transporting ions between said electrode and said counterelectrode, conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, at least one of said electrically conductive layers between said electrochromic structure and said substrate including a transparent conductive oxide and excluding a metal layer, and enhancing means for enhancing the transmission of radiation through said at least one of said electrically conductive layers, said enhancing means including at least one optically transparent layer including silicon dioxide in surface contact with said substrate.
-
18. An electrochromic combination, comprising
a substrate, and an electrochromic device arranged on said substrate, said electrochromic device including an electrochromic structure having an electrode formed from an electrochromic material, a counterelectrode and transporting means consisting of only a single layer for transporting ions between said electrode and said counterelectrode, conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, and enhancing means for enhancing the transmission of radiation through said electrically conductive layers, said enhancing means including at least two optically transparent layers sandwiching said electrochromic structure and said electrically conductive layers, one of said optically transparent layers being in surface contact with said substrate, at least one of said optically transparent layers including silicon dioxide.
-
19. An electrochromic combination, comprising
a substrate, and an electrochromic device arranged on said substrate, said electrochromic device including an electrochromic structure having an electrode formed from an electrochromic material, a counterelectrode and transporting means consisting of only a single layer for transporting ions between said electrode and said counterelectrode, conductive means including at least two electrically conductive layers sandwiching said electrochromic structure for applying an electric potential across said electrochromic structure, at least one of said electrically conductive layers between said electrochromic structure and said substrate including a transparent oxide, and enhancing means for enhancing the transmission of radiation through said at least one of said electrically conductive layers, said enhancing means including at least one optically transparent layer including silicon dioxide interposed between said substrate and said at least one of said electrically conductive layers in surface contact with said transparent oxide.
Specification