Multi-layer mixed metal oxide electrode and method for making same
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
C25B-011/08
C25B-011/10
C25B-011/06
출원번호
US-0117373
(2011-05-27)
등록번호
US-8580091
(2013-11-12)
발명자
/ 주소
Niksa, Marilyn J.
Niksa, Andrew J.
출원인 / 주소
Water Star, Inc.
대리인 / 주소
Kusner & Jaffe
인용정보
피인용 횟수 :
0인용 특허 :
37
초록▼
A composition and method of manufacture of electrodes having controlled electrochemical activity to allow the electrodes to be designed for a variety of electro-oxidation processes. The electrodes are comprised of a compact coating deposited onto a conductive substrate, the coating being formed as m
A composition and method of manufacture of electrodes having controlled electrochemical activity to allow the electrodes to be designed for a variety of electro-oxidation processes. The electrodes are comprised of a compact coating deposited onto a conductive substrate, the coating being formed as multiple layers of a mixture of one or more platinum group metal oxides and one or more valve metal oxides. The formation of multiple layers allows the concentrations of platinum group metal and valve metal to be varied for each layer as desired for an application. For example, an electrode structure can be manufactured for use as an anode in electroplating processes, such that the oxidation of the organic additives in the electrolyte is markedly inhibited. Another electrode can be manufactured to operate at high anodic potentials in aqueous electrolytes to generate strong oxidants, e.g., hydrogen peroxide or ozone.
대표청구항▼
1. An electrode of controlled electrocatalytic activity for electrolytic processes, said electrode comprising: a conductive substrate; anda coating formed on the conductive substrate, said coating comprised of a plurality of mixed metal oxide layers, each of said mixed metal oxide layers including:
1. An electrode of controlled electrocatalytic activity for electrolytic processes, said electrode comprising: a conductive substrate; anda coating formed on the conductive substrate, said coating comprised of a plurality of mixed metal oxide layers, each of said mixed metal oxide layers including: an oxide of a platinum group metal, andan oxide of a valve metal,wherein a ratio of a concentration of the platinum group metal to a concentration of the valve metal decreases such that with each subsequent mixed metal oxide layer of said plurality of mixed metal oxide layers, the further the mixed metal oxide layer is located from the conductive substrate the smaller said ratio,wherein said plurality of mixed metal oxide layers is comprised of three or more of said mixed metal oxide layers. 2. An electrode according to claim 1, wherein said plurality of mixed metal oxide layers consists of three to seven of said mixed metal oxide layers. 3. An electrode according to claim 1, wherein each of said mixed metal oxide layers includes one or more platinum group metal oxides and one or more valve metal oxides, wherein said concentration of the platinum group metal is an aggregate of the concentrations of one or more platinum group metals and said concentration of the valve metal is an aggregate of the concentrations of one or more valve metals. 4. An electrode according to claim 1, wherein each subsequent mixed metal oxide layer generally has a step-wise change in said ratio. 5. An electrode according to claim 1, wherein particles of the platinum group metal oxide provide continuous conductive pathways through said plurality of mixed metal oxide layers. 6. An electrode according to claim 1, wherein said platinum group metal is ruthenium, iridium or platinum. 7. An electrode according to claim 1, wherein said valve metal is titanium, tantalum, zirconium or niobium. 8. An electrode according to claim 1, wherein said coating further comprises a barrier layer comprised of one or more valve metal oxides. 9. An electrode according to claim 1, wherein said conductive substrate is comprised of a valve metal or an alloy of two or more valve metals. 10. An electrode according to claim 1, wherein the concentration of the platinum group metal ranges from 75% to 80% by weight and the concentration of the valve metal ranges from 20% to 25% by weight for a first mixed metal oxide layer deposited onto the conductive substrate; andthe concentration of the platinum group metal ranges from 80% to 0.0005% by weight and the concentration of the valve metal ranges from 20% to 99.9995% by weight for one or more successive mixed metal oxide layers deposited onto the conductive substrate. 11. An electrode according to claim 1, wherein the coating when viewed at 1000× magnification by a scanning electron microscope is substantially free of cracks and fissures. 12. An electrode according to claim 1, where the coating is a homogeneous mixture of the oxide of the platinum group metal and the oxide of the valve metal. 13. An electrode according to claim 1, wherein loading of the platinum group metal oxide and the valve metal oxide ranges from 0.01 grams per square foot to 0.13 grams per square foot for each mixed metal oxide layer of said plurality of mixed metal oxide layers. 14. An electrode according to claim 13, wherein the concentration of the platinum group metal in the mixed metal oxide layer closest to the conductive substrate is greater than about 50% by weight, and the concentration of the platinum group metal in the mixed metal oxide layer furthest from the conductive substrate is less than about 10% by weight. 15. An electrode according to claim 1, of controlled electrocatalytic activity for electrolytic processes, said electrode comprising: a conductive substrate; anda coating formed on the conductive substrate, said coating comprised of a plurality of mixed metal oxide layers, each of said mixed metal oxide layers including: an oxide of a platinum group metal, andan oxide of a valve metal,wherein a ratio of a concentration of the platinum group metal to a concentration of the valve metal decreases such that with each subsequent mixed metal oxide layer of said plurality of mixed metal oxide layers, the further the mixed metal oxide layer is located from the conductive substrate the smaller said ratiowherein the platinum group metal concentration in the plurality of mixed metal oxide layers varies from 75% by weight in the mixed metal oxide layer closest to the conductive substrate to 0.0005% by weight in the mixed metal oxide layer furthest from the conductive substrate, and the valve metal concentration in the mixed metal oxide layers varies from 25% by weight in the mixed metal oxide layer closest to the conductive substrate to 99.9995% in the mixed metal oxide layer furthest from the conductive substrate. 16. An electrode for electrolytic processes, the electrode comprising a conductive substrate and a coating on the substrate, the coating including a plurality of mixed metal oxide layers each comprising both an oxide of a platinum group metal and an oxide of a valve metal, wherein a ratio of a concentration of the platinum group metal to a concentration of the valve metal decreases with each subsequent mixed metal oxide layer of said plurality of mixed metal oxide layers, such that the further a mixed metal oxide layer of said plurality of mixed metal oxide layers is located from the conductive substrate the smaller is said ratio, said plurality of mixed metal oxide layers is comprised of three or more of said mixed metal oxide layer. 17. An electrode according to claim 16, wherein said plurality of mixed metal oxide layers consists of from four to seven of said mixed metal oxide layers. 18. An electrode according to claim 16, wherein each mixed metal oxide layer of said plurality of mixed metal oxide layers has a substantially homogenous composition insofar as each such mixed metal oxide layer has a thickness across which said ratio is substantially constant. 19. An electrode according to claim 16, wherein in moving from one of said plurality of mixed metal oxide layers to the next of said plurality of mixed metal oxide layers there is a step-wise change in said ratio. 20. An electrode according to claim 16, wherein the coating further includes a barrier layer comprised of one or more valve metal oxides. 21. An electrode according to claim 16, wherein the platinum group metal is iridium and the valve metal is tantalum. 22. An electrode according to claim 16, wherein said plurality of mixed metal oxide layers consists of from three to seven of said mixed metal oxide layers.
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