Solid state transport-based thermoelectric converter
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G21H-001/00
H02N-010/00
H01L-035/00
H01L-037/00
출원번호
UP-0926934
(2007-10-29)
등록번호
US-7696668
(2010-05-20)
발명자
/ 주소
Hu, Zhiyu
출원인 / 주소
UT-Battelle, LLC
대리인 / 주소
Novak Druce +Quigg
인용정보
피인용 횟수 :
1인용 특허 :
9
초록▼
A solid state thermoelectric converter includes a thermally insulating separator layer, a semiconducting collector and an electron emitter. The electron emitter comprises a metal nanoparticle layer or plurality of metal nanocatalyst particles disposed on one side of said separator layer. A first ele
A solid state thermoelectric converter includes a thermally insulating separator layer, a semiconducting collector and an electron emitter. The electron emitter comprises a metal nanoparticle layer or plurality of metal nanocatalyst particles disposed on one side of said separator layer. A first electrically conductive lead is electrically coupled to the electron emitter. The collector layer is disposed on the other side of the separator layer, wherein the thickness of the separator layer is less than 1 μm. A second conductive lead is electrically coupled to the collector layer.
대표청구항▼
The invention claimed is: 1. A solid state thermoelectric converter, comprising: a thermally insulating separator layer; an electron emitter comprising a metal nanocatalytic layer or a plurality of metal nanocatalyst particles disposed on one side of said separator layer, a first electrically condu
The invention claimed is: 1. A solid state thermoelectric converter, comprising: a thermally insulating separator layer; an electron emitter comprising a metal nanocatalytic layer or a plurality of metal nanocatalyst particles disposed on one side of said separator layer, a first electrically conductive lead electrically coupled to said electron emitter; a collector layer disposed on a second side of said separator layer, and a second conductive lead electrically coupled to said collector layer. 2. The converter of claim 1, wherein said collector layer comprises a semiconductor. 3. The converter of claim 2, wherein said semiconductor comprises Si or Ge. 4. The converter of claim 1, wherein said separator layer has a thickness of 1 μm to about 1 nm. 5. The converter of claim 1, wherein said separator layer comprises a crystalline metal oxide. 6. The converter of claim 5, wherein a conduction band offset of a conduction band of said separator layer to a conduction band of said collector layer is less than 2.5 eV. 7. The converter of claim 5, wherein said separator layer comprises a nanostructured layer. 8. The converter of claim 7, wherein said metal oxide comprises at least one alkaline earth oxide and wherein the collector layer is Si. 9. The converter of claim 8, wherein said metal oxide and said Si has an interface comprising an alkaline earth silicide. 10. The converter of claim 5, wherein said metal oxide comprises (AO)n(A′BO3)m wherein A and A′ are one or more alkaline earth metals, B is titanium, n is 0 to 3 and m is 0 to 100. 11. The converter of claim 10, wherein said A′BO3 is SrTiO3 and said collector is Si. 12. The converter of claim 10, wherein said A′BO3 is BaTiO3 and said collector layer is Ge. 13. The converter of claim 1, wherein said metal nanocatalyst particles have an average size of less than 200 nm. 14. The converter of claim 1, wherein said electron emitter is selected from the group of metals consisting of Au, Pt, Ru, Rh, Pd, Ag, Cu, Zn, Fe, Ni, and Mn, and alloys thereof. 15. A thermoelectric system for generating electricity, comprising: at least one thermoelectric converter comprising: a thermally insulating separator layer; an electron emitter comprising a metal nanoparticle layer or a plurality of metal nanocatalyst particles disposed on one side of said separator layer, a first electrically conductive lead electrically coupled to said electron emitter; a collector layer disposed on a second side of said separator layer, and a second conductive lead electrically coupled to said collector layer; a substrate, wherein said at least one converter is disposed on or disposed within said substrate; and at least one fluidic system coupled to said converter wherein said fluidic system delivers a fuel and an oxidant to said emitter of said converter. 16. The system of claim 15, wherein said converters are electrically connected in series, parallel or a combination of series and parallel. 17. The system of claim 15, wherein said fluidic system is disposed on or disposed within said substrate. 18. The system of claim 15, further comprising a reservoir for storage of said fuel. 19. The system of claim 18, wherein said fuel comprises hydrogen, a hydrocarbon or an alcohol. 20. The system of claim 15 wherein said fluidic system further provides cooling to said converter. 21. A thermoelectric method of generating electricity, comprising the steps of: providing at least one thermionic converter comprising a thermally insulating separator layer; an electron emitter comprising a metal nanoparticle layer or a plurality of metal nanocatalyst particles disposed on one side of said separator layer, and a collector layer disposed on a second side of said collector layer; supplying a fuel and an oxidant to said electron emitter, wherein said fuel and oxidant spontaneously react on the surface of said emitter generating heat sufficient to cause thermionic emission of electrons from said electron emitter, and solid-to-solid emitting of said electrons through said separator layer to said collector layer wherein said emitter and said collector layer are connected by a conductor. 22. The method of claim 21, wherein said thickness of said separator layer is less than a mean free path of electrons in said separator layer. 23. The method of claim 21, further comprises the step of combining outputs from each of a plurality of said converters. 24. The method of claim 21, further comprising coupling an output of said converter to a portable electronic device, wherein said converter supplies power to said portable electronic device. 25. The method of claim 24, wherein said portable power device comprises a personal digital assistant (PDA), cellular phone or laptop computer.
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이 특허에 인용된 특허 (9)
Ryoji Funahashi JP; Ichiro Matsubara JP; Satoshi Sodeoka JP, Complex oxide having high seebeck coefficient and high electric conductivity.
Marshall, Albert C.; King, Donald B.; Zavadil, Kevin R.; Kravitz, Stanley H.; Tigges, Chris P.; Vawter, Gregory A., Self-powered microthermionic converter.
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