Pre-equilibrium chemical reaction energy converter
First Claim
1. A method of generating electricity comprising:
- forming species in highly excited states on a catalyst to enable radiating electromagnetic energy before the species desorb; and
converting the electromagnetic energy into electricity with a photovoltaic collector.
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Accused Products
Abstract
The use of newly discovered chemical reaction products, created when reactants combine to form products on the surface of a catalyst, to generate electricity, beams of radiation or mechanical motion. The invention also provides methods to convert the products into electricity or motion. The electric generator consists of a catalyst nanocluster, nanolayer or quantum well placed on a substrate consisting of a semiconductor diode, and a semiconductor diode on the surface of the substrate near the catalyst. The device to generate mechanical motion consists of a catalyst nanocluster, nanolayer or quantum well placed on a substrate, and a hydraulic fluid in contact with the non-reaction side of the substrate, with the surfaces of both the catalyst and substrate mechanically formed to enhance the unidirectional forces on the fluid. Both devices use a fuel-oxidizer mixture brought in contact with the catalyst. The apparatus converts a substantial fraction of the reaction product energy into useful work during the brief interval before such products equilibrate with their surroundings.
63 Citations
16 Claims
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1. A method of generating electricity comprising:
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forming species in highly excited states on a catalyst to enable radiating electromagnetic energy before the species desorb; and converting the electromagnetic energy into electricity with a photovoltaic collector. - View Dependent Claims (2, 3, 4)
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5. A method of generating electricity comprising:
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forming species in highly excited states on a catalyst hereby radiating electromagnetic energy; converting the electromagnetic energy into electricity with a photovoltaic collector; and stimulating and accelerating a reaction emission rate using an optical cavity.
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6. A method of generating electricity comprising:
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forming species in highly excited states on a catalyst thereby radiating electromagnetic energy; converting the electromagnetic energy into electricity with a photovoltaic collector; and stimulating an overtone radiation using an optical cavity. - View Dependent Claims (7)
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8. A device for generating electricity comprising:
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a catalyst to enable emission of radiation before reactants desorb; a substrate, wherein the catalyst is arranged on the substrate; and a photovoltaic converter, the photovoltaic converter being located anywhere visible to radiation emitted by reactions involving the catalyst. - View Dependent Claims (9, 10, 11)
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12. A device for generating electricity comprising:
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a catalyst; a substrate, wherein the catalyst is arranged on the substrate; a photovoltaic converter, the photovoltaic converter being located anywhere visible to radiation emitted by reactions involving the catalyst; and an optical cavity, wherein the catalyst is located in the optical cavity and wherein the optical cavity is tuned to a frequency of an excited state species within the cavity. - View Dependent Claims (13)
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14. A device for generating electricity comprising:
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a catalyst; a substrate, wherein the catalyst is arranged on the substrate; a photovoltaic converter, the photovoltaic converter being located anywhere visible to radiation emitted by reactions involving the catalyst, wherein the optical cavity has multiple frequencies that are tuned to overtones of the specie frequencies and wherein the optical cavity stimulates overtone transitions. - View Dependent Claims (15)
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16. A device for generating electricity comprising:
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a catalyst; a substrate, wherein the catalyst is arranged on the substrate; a photovoltaic converter, the photovoltaic converter being located anywhere visible to radiation emitted by reactions involving the catalyst, wherein the catalyst includes at least one of an island, nanocluster, quantum well cluster and a quantum dot and the substrate includes a plurality of substrates arranged in a stack, thereby forming a catalyst-substrate stack, wherein the catalyst-substrate stack is tuned to at least one of a frequency or overtone thereof of the radiation.
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Specification