Apparatus and method for generating electrical current from the nuclear decay process of a radioactive material
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01L-031/04
H01M-014/00
G21H-001/00
출원번호
US-0373914
(2003-02-25)
발명자
/ 주소
Gadeken, Larry
출원인 / 주소
BetaBatt, Inc.
대리인 / 주소
Arnold &
인용정보
피인용 횟수 :
10인용 특허 :
18
초록▼
An apparatus and method for generating electrical power from the decay process of a radioactive material is disclosed, wherein a volume of radioactive material and a junction region are enclosed in a cell. The junction region is formed by appropriate construction of a number of p-type and n-type dop
An apparatus and method for generating electrical power from the decay process of a radioactive material is disclosed, wherein a volume of radioactive material and a junction region are enclosed in a cell. The junction region is formed by appropriate construction of a number of p-type and n-type dopant sites. At least a portion of one of the junction regions is disposed within a porous region having an aspect ratio of greater than about 20:1, and disposed at an angle of greater than about 55° measured relative to the surface area in which it is formed. The dimensions and shapes of the macroporous regions and the improved junction region surface area available for collecting charged particles emitted during a radioactive decay series permit an improved current to be derived from the apparatus than would otherwise be expected given its external dimensions.
대표청구항▼
1. An apparatus for generating electrical current from a nuclear decay process of a radioactive material, the apparatus comprising:an enclosed volume of radioactive material; and a junction region disposed within said enclosed volume, wherein a first portion of said junction region is disposed withi
1. An apparatus for generating electrical current from a nuclear decay process of a radioactive material, the apparatus comprising:an enclosed volume of radioactive material; and a junction region disposed within said enclosed volume, wherein a first portion of said junction region is disposed within a pore formed in a semiconductor and is disposed at a declination angle of greater than about 55° relative to a second portion of said junction region, and wherein an opening of said pore has a throat diameter of greater than about 1 nm and less than about 500 μm. 2. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein said enclosed volume of radioactive material further comprises beta particles emitted during said nuclear decay process.3. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein said enclosed volume of radioactive material further comprises alpha particles emitted during said nuclear decay process.4. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein said enclosed volume of radioactive material further comprises gamma particles emitted during said nuclear decay process.5. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein said enclosed volume of radioactive material further comprises a gaseous material.6. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 5, wherein said gaseous material further comprises a tritium gas.7. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein said enclosed volume of radioactive material further comprises a liquid material.8. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 7, wherein said liquid material further comprises a 63Ni solution.9. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein said enclosed volume of radioactive material further comprises a solid material.10. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein said pore formed in said semiconductor has a curved shape.11. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 10, wherein a throat opening of said pore has a diameter of less than about a mean free path length of a beta particle emitted from said radioactive material.12. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein a throat opening of said pore has a diameter of greater than about 1 nm and less than about 100 μm.13. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein a throat opening of said pore has a diameter of between about 1 nm and about 70 μm.14. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein said pore formed in said semiconductor has a multifaceted shape.15. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 14, wherein a throat opening of said pore has a diameter of less than about a mean free path length of a beta particle emitted from said radioactive material.16. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein a length of said pore terminates within a body portion of said semiconductor.17. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 1, wherein a length of said pore extends entirely through a body portion of said semiconductor.18. An apparatus for generating electrical current from a nuclear decay process of a radioactive material, the apparatus comprising: a volume of radioactive material enclosed in a bulk silicon material; and a junction region disposed within at least one pore formed within a body portion of said bulk silicon material, wherein said at least one pore has an aspect ratio of greater than about 20:1 and a throat opening having a diameter of greater than about 1 nm and less than about 500 μm.19. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein said at least one pore has an aspect ratio of greater than about 30:1.20. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein said enclosed volume of radioactive material further comprises beta particles emitted during said nuclear decay process.21. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein said enclosed volume of radioactive material further comprises alpha particles emitted during said nuclear decay process.22. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein said enclosed volume of radioactive material further comprises gamma particles emitted during said nuclear decay process.23. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein said enclosed volume of radioactive material further comprises a gaseous material.24. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 23, wherein said gaseous material further comprises a tritium gas.25. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein said enclosed volume of radioactive material further comprises a liquid material.26. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 25, wherein said liquid material further comprises a 63Ni solution.27. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein said enclosed volume of radioactive material further comprises a solid material.28. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein a throat opening of said at least one pore has a diameter of less than about a mean free path length of a beta particle emitted from said radioactive material.29. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein a throat opening of said at least one pore has a diameter of greater than about 1 nm and less than about 100 μm.30. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein a throat opening of said at least one pore has a diameter of between about 1 nm and about 70 μm.31. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein said at least one pore formed within the body of said bulk silicon material has a multifaceted shape.32. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 31, wherein a throat opening of said at least one pore has a diameter of less than about a mean free path length of a beta particle emitted from said radioactive material.33. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein a length of said at least one pore terminates within said body portion of said bulk silicon material.34. The apparatus for generating electrical current from a nuclear decay process of a radioactive material of claim 18, wherein a length of said at least one pore extends entirely through said body portion of said bulk silicon material.35. A method for generating electrical current from a nuclear decay process of a radioactive material, the method comprising:enclosing a volume of radioactive material; and disposing a junction region within said enclosed volume, so that a first portion of said junction region is disposed in a pore having a throat diameter of greater than about 1 nm and less than about 500 μm, wherein said pore is formed in a semiconductor and is disposed at a declination angle of greater than about 55° relative to a second portion of said junction region. 36. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: enclosing a volume of radioactive material that emits beta particles during said nuclear decay process.37. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: enclosing a volume of radioactive material that emits alpha particles during said nuclear decay process.38. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: enclosing a volume of radioactive material that emits gamma particles during said nuclear decay process.39. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: enclosing a volume of gaseous radioactive material.40. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 39, the method further comprising: enclosing a volume of tritium gas.41. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: enclosing a volume of liquid radioactive material.42. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 41, the method further comprising: enclosing a volume of liquid 63Ni solution.43. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: enclosing a volume of solid radioactive material.44. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: forming said pore into a curved shape.45. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 44, the method further comprising: forming a having a throat diameter of less than about a mean free path length of a beta particle emitted from said radioactive material.46. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: forming a throat opening of said at least one pore so that a throat diameter of greater than about 1 nm and less than about 100 μm is obtained.47. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: forming a throat opening of said at least one pore so that a throat diameter of between about 1 nm and about 70 μm is obtained.48. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: forming said at least one pore into a multifaceted shape.49. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 48, the method further comprising: forming a throat opening of said at least one pore so that a throat diameter of less than a mean free path length of a beta particle emitted from said radioactive material is obtained.50. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: forming a length of said at least one pore so that said length terminates within a body portion of said semiconductor.51. The method for generating electrical current from a nuclear decay process of a radioactive material of claim 35, the method further comprising: forming a length of said at least one pore so that said length extends entirely through a body portion of said semiconductor.
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Gadeken, Larry, Apparatus and method for generating electrical current from the nuclear decay process of a radioactive material.
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