Claims
- 1. A method for controlling a reaction system comprising:
forming a reaction system; and targeting said reaction system with at least one method selected from the group consisting of direct resonance targeting, harmonic targeting and non-harmonic heterodyne targeting.
- 2. The method of claim 1, wherein said reaction system comprises at least one participant.
- 3. The method of claim 1, wherein said reaction system comprises at least one member selected from the group consisting of reactant, transient, intermediate, activated complex, physical catalyst, promoter, poison and reaction product.
- 4. A method for controlling a reaction system comprising:
forming a reaction system comprising at least one member selected from the group consisting of reactants, transients, intermediates, activated complexes, physical catalysts, reaction products, promoters, poisons, solvents, physical catalyst support materials, reaction vessels, and mixtures and components thereof; and applying at least one spectral energy provider to said reaction system, said spectral energy provider being selected from the group consisting of spectral energy catalyst, spectral catalyst, spectral energy pattern, spectral pattern, catalytic spectral energy pattern, catalytic spectral pattern, applied spectral energy pattern, and spectral environmental reaction conditions, said at least one spectral energy provider providing energy to at least one member of said reaction system by interacting with at least one frequency thereof, excluding electronic and vibrational frequencies in any of said reactant, to achieve direct resonance therewith and to produce at least one desired reaction product.
- 5. A method for controlling a reaction system comprising:
forming a reaction system comprising at least one member selected from the group consisting of reactants, transients, intermediates, activated complexes, physical catalysts, reaction products, promoters, poisons, solvents, physical catalyst support materials, reaction vessels, and mixtures and components thereof; and applying at least one spectral energy provider to said reaction system, said spectral energy provider being selected from the group consisting of, spectral energy catalyst, spectral catalyst, spectral energy pattern, spectral pattern, catalytic spectral energy pattern, catalytic spectral pattern, applied spectral energy pattern, and spectral environmental reaction conditions, said at least one spectral energy provider providing energy to at least one member of said reaction system by interacting with at least one frequency thereof, excluding electronic and vibrational frequencies in any of said reactant, to achieve harmonic resonance therewith and to produce at least one desired reaction product.
- 6. A method for controlling a reaction system comprising:
forming a reaction system comprising at least one member selected from the group consisting of reactants, transients, intermediates, activated complexes, physical catalysts, reaction products, promoters, poisons, solvents, physical catalyst support materials, reaction vessels, and mixtures and components thereof; and applying at least one spectral energy provider to said reaction system, said spectral energy provider being selected from the group consisting of, spectral energy catalyst, spectral catalyst, spectral energy pattern, spectral pattern, catalytic spectral energy pattern, catalytic spectral pattern, applied spectral energy pattern, and spectral environmental reaction conditions, said at least one spectral energy provider providing energy to at least one member of said reaction system by interacting with at least one frequency thereof, to achieve non-harmonic heterodyne resonance therewith and to produce at least one desired reaction product.
- 7. A method for catalyzing a reaction system with a spectral energy catalyst resulting in at least one reaction product comprising:
forming a reaction system comprising at least one participant; and applying at least one spectral energy catalyst to said reaction system to cause spectral energy pattern broadening of at said least one participant to cause a transfer of energy to occur into said reaction system resulting in the production of at least one reaction product.
- 8. A method for controlling a reaction system comprising: forming a reaction system; and
applying at least one applied spectral energy pattern to said reaction system, said at least one applied spectral energy pattern resulting in spectral pattern broadening of at least one component in said reaction system to cause a transfer of energy to occur from said at least one applied spectral pattern into said reaction system, resulting in the production of at least one reaction product.
- 9. A method for controlling a reaction system comprising:
forming a reaction system comprising at least one member selected from the group consisting of reactants, transients and reaction product; and applying at least one spectral energy pattern to said reaction system, said at least one applied spectral energy pattern resulting in spectral pattern broadening of at least one of said members in said reaction system, resulting in a transfer of energy from said applied spectral energy pattern to said at least one member of said reaction system resulting in the production of at least one reaction product.
- 10. A method to effect and direct a reaction system with a spectral energy catalyst comprising:
determining at least a portion of a spectral energy pattern for at least one starting reactant in said reaction system; determining at least a portion of the spectral energy pattern for at least one reaction product in said reaction system; designing an additive spectral energy pattern from said at least one starting reactant and said at least one reaction product to determine a designed spectral energy catalyst; generating at least a portion of the designed spectral energy catalyst; and applying to the reaction system said at least a portion of the designed spectral energy catalyst to form at least one desired reaction product.
- 11. A method to effect and direct a reaction system comprising:
forming a reaction system; and applying to said reaction system at least one spectral environmental reaction condition to result in at least one desired reaction pathway in said reaction system.
- 12. The method of claim 11, wherein said at least one spectral environmental reaction condition is selectively applied in to start and stop said at last one desired reaction pathway.
- 13. A method for designing a catalyst to be used in a reaction system, comprising:
determining at least a portion of a spectral energy pattern for at least one starting reactant in said reaction system; determining at least a portion of a spectral energy pattern for at least one reaction product in said reaction system; determining an additive spectral energy pattern from said at least one reactant and said at least one reaction product to determine a designed catalyst spectral energy pattern; and selecting at least one catalyst selected from the group consisting of at least one physical material which corresponds, at least partially, to said designed catalyst spectral energy pattern and a spectral energy catalyst which corresponds, at least partially, to said designed catalyst spectral energy pattern.
- 14. The method of claim 13, wherein said at least one physical material comprises a mixture of at least two components.
- 15. The method of claim 13, wherein said at least one physical material comprises a chemically bonded mixture of at least two components.
- 16. A method for effecting or directing a reaction system comprising:
forming a reaction system comprising at least one member selected from the group consisting of required intermediates and required transients; and applying at least one spectral energy pattern to cause spectral pattern broadening of said at least one member in said reaction system, resulting in stabilization of any of said required intermediates and required transients, to permit the formation of at least one desired reaction product.
- 17. A method for catalyzing a reaction system comprising:
forming a reaction system comprising at least one matter component; and applying at least one frequency which achieves non-harmonic heterodyne resonance with said at least one matter component in said reaction system, resulting in the production of at least one desired reaction product.
- 18. A method for catalyzing a reaction system comprising:
applying at least one first spectral energy pattern; and applying at least one second spectral energy pattern to result in the formation of at least one desired reaction product.
- 19. The method of claim 18, wherein said at least one first spectral energy pattern and said at least second spectral energy pattern are applied substantially continuously to form an applied spectral energy pattern.
- 20. The method of claim 18, wherein said at least one first spectral energy pattern and said at least one second spectral pattern are applied sequentially.
- 21. A method for affecting or directing a reaction system comprising:
forming a reaction system; and applying at least two spectral energy patterns, wherein a first of said at least two spectral energy patterns causes a first desired reaction pathway to be followed within said reaction system, and wherein a second of said at least two spectral patterns comprises a second reaction pathway to be followed within said reaction system.
- 22. A method for selectively catalyzing a reaction system comprising:
forming a reaction system; applying at least a first spectral energy pattern to said reaction system; and sequentially applying at least a second spectral energy pattern to said reaction system, whereby said first spectral energy pattern and said second spectral energy pattern produce different reaction pathways within said reaction system.
- 23. A method for controlling a reaction system comprising:
forming a reaction system; determining spectral patterns for all components in said reaction system; determining spectral patterns for all desired reaction products in said reaction system; determining at least one applied spectral energy pattern to be applied to achieve all of said desired reaction products; and applying said at least one applied spectral energy pattern.
- 24. A method for controlling a reaction pathway in a reaction system comprising:
determining spectral energy patterns for all components in a reaction system for a first reaction pathway; determining spectral energy patterns for all desired reaction products in a first reaction pathway; determining spectral energy patterns for all components in a reaction system for a second reaction pathway; determining spectral energy patterns for all components in a reaction system for a second reaction pathway; determining a first spectral energy catalyst to achieve said first reaction pathway; determining a second spectral energy catalyst to achieve said second reaction pathway; and selectively applying said first spectral energy catalyst and second spectral energy catalyst to follow said each of first and second reaction pathways.
- 25. A method for catalyzing a reaction system with a spectral energy pattern comprising:
forming a reaction system comprising at least one member selected from the group consisting of reactants, transients and intermediates; and applying at least one spectral energy pattern for a sufficient time and at a sufficient intensity to cause the stabilization of at least one member selected from the group consisting of at least one transient and at least one intermediate, to result in at least one desired reaction product.
- 26. A method for catalyzing a reaction system with at least one spectral energy pattern comprising:
forming a reaction system comprising at least one transient; and applying all required spectral energy patterns to result in the stabilization of all transients in a desired reaction pathway.
CROSS REFERENCE TO RELATED APPLICATIONS AND PATENT
[0001] This Application is a Continuation-In-Part of U.S. Provisional Application Serial No. 60/231,620, entitled, A Frequency Based Theory Of Catalysts, which was filed Sep. 11, 2000.This Application is also a Continuation-In-Part of copending U.S. patent application Ser. No. 09/919,679, entitled, Spectral Catalysts, filed Aug. 1, 2001, which is a Continuation of U.S. patent application Ser. No. 09/460,025, entitled Spectral Catalysts, filed Dec. 13, 1999, now abandoned, which is a Divisional of U.S. patent application Ser. No. 09/098,883, originally filed on Jun. 17, 1998, now U.S. Pat. No. 6,033,531, which issued on Mar. 7, 2000, which claims the benefit of U.S. Provisional Application Serial No., 60/049,910, entitled, Spectral Catalysts, filed Jun. 18, 1997. This Application also claims the benefit of U.S. Provisional Application Serial No. 60/049,910. The subject matter of all of the above-identified Patent Applications and Patent are hereby expressly incorporated by reference.
PCT Information
Filing Document |
Filing Date |
Country |
Kind |
PCT/US01/28392 |
9/11/2001 |
WO |
|