Promethium (61Pm) is an artificial element, except in trace quantities as a product of spontaneous fission of 238U and 235U and alpha decay of 151Eu, and thus a standard atomic weight cannot be given. Like all artificial elements, it has no stable isotopes. It was first synthesized in 1945.
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Forty-one radioisotopes have been characterized, with the most stable being 145Pm with a half-life of 17.7 years, 146Pm with a half-life of 5.53 years, and 147Pm with a half-life of 2.6234 years. All of the remaining radioactive isotopes have half-lives that are less than 365 days, and the majority of these have half-lives that are less than 30 seconds. This element also has 18 meta states with the most stable being 148mPm (t1/2 41.29 days), 152m2Pm (t1/2 13.8 minutes) and 152mPm (t1/2 7.52 minutes).
The isotopes of promethium range in mass number from 126 to 166. The primary decay mode for 146Pm and lighter isotopes is electron capture, and the primary mode for heavier isotopes is beta decay. The primary decay products before 146Pm are isotopes of neodymium, and the primary products after are isotopes of samarium.
List of isotopes
| Nuclide [n 1] | Z | N | Isotopic mass (Da) [n 2][n 3] | Half-life [n 4] | Decay mode [n 5] | Daughter isotope [n 6][n 7] | Spin and parity [n 8][n 4] | Isotopic abundance | |||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Excitation energy[n 4] | |||||||||||||||||||
| 126Pm | 61 | 65 | 125.95752(54)# | 0.5# s | |||||||||||||||
| 127Pm | 61 | 66 | 126.95163(64)# | 1# s | 5/2+# | ||||||||||||||
| 128Pm | 61 | 67 | 127.94842(43)# | 1.0(3) s | β+ | 128Nd | 6+# | ||||||||||||
| p | 127Nd | ||||||||||||||||||
| 129Pm | 61 | 68 | 128.94316(43)# | 3# s [>200 ns] | β+ | 129Nd | 5/2+# | ||||||||||||
| 130Pm | 61 | 69 | 129.94045(32)# | 2.6(2) s | β+ | 130Nd | (5+, 6+, 4+) | ||||||||||||
| β+, p (rare) | 129Pr | ||||||||||||||||||
| 131Pm | 61 | 70 | 130.93587(21)# | 6.3(8) s | β+, p | 130Pr | 5/2+# | ||||||||||||
| β+ | 131Nd | ||||||||||||||||||
| 132Pm | 61 | 71 | 131.93375(21)# | 6.2(6) s | β+ | 132Nd | (3+) | ||||||||||||
| β+, p (5×10−5%) | 131Pr | ||||||||||||||||||
| 133Pm | 61 | 72 | 132.92978(5) | 15(3) s | β+ | 133Nd | (3/2+) | ||||||||||||
| 133mPm | 130.4(10) keV | 10# s | β+ | 133Nd | (11/2−) | ||||||||||||||
| IT | 133Pm | ||||||||||||||||||
| 134Pm | 61 | 73 | 133.92835(6) | 22(1) s | β+ | 134Nd | (5+) | ||||||||||||
| 134mPm | 0(100)# keV | ~5 s | IT | 134Pm | (2+) | ||||||||||||||
| 135Pm | 61 | 74 | 134.92488(6) | 49(3) s | β+ | 135Nd | (5/2+, 3/2+) | ||||||||||||
| 135mPm | 50(100)# keV | 40(3) s | β+ | 135Nd | (11/2−) | ||||||||||||||
| 136Pm | 61 | 75 | 135.92357(8) | 107(6) s | β+ | 136Nd | (5−) | ||||||||||||
| 136mPm | 130(120) keV | 47(2) s | β+ | 136Nd | (2+) | ||||||||||||||
| 137Pm | 61 | 76 | 136.920479(14) | 2# min | β+ | 137Nd | 5/2+# | ||||||||||||
| 137mPm | 150(50) keV | 2.4(1) min | β+ | 137Nd | 11/2− | ||||||||||||||
| 138Pm | 61 | 77 | 137.919548(30) | 10(2) s | β+ | 138Nd | 1+# | ||||||||||||
| 138mPm | 30(30) keV | 3.24(5) min | β+ | 138Nd | 5−# | ||||||||||||||
| 139Pm | 61 | 78 | 138.916804(14) | 4.15(5) min | β+ | 139Nd | (5/2)+ | ||||||||||||
| 139mPm | 188.7(3) keV | 180(20) ms | IT (99.83%) | 139Pm | (11/2)− | ||||||||||||||
| β+ (0.17%) | 139Nd | ||||||||||||||||||
| 140Pm | 61 | 79 | 139.91604(4) | 9.2(2) s | β+ | 140Nd | 1+ | ||||||||||||
| 140mPm | 420(40) keV | 5.95(5) min | β+ | 140Nd | 8− | ||||||||||||||
| 141Pm | 61 | 80 | 140.913555(15) | 20.90(5) min | β+ | 141Nd | 5/2+ | ||||||||||||
| 141m1Pm | 628.40(10) keV | 630(20) ns | 11/2− | ||||||||||||||||
| 141m2Pm | 2530.9(5) keV | >2 μs | |||||||||||||||||
| 142Pm | 61 | 81 | 141.912874(27) | 40.5(5) s | β+ | 142Nd | 1+ | ||||||||||||
| 142mPm | 883.17(16) keV | 2.0(2) ms | IT | 142Pm | (8)− | ||||||||||||||
| 143Pm | 61 | 82 | 142.910933(4) | 265(7) d | EC | 143Nd | 5/2+ | ||||||||||||
| β+ (<5.7×10−6%)[1] | |||||||||||||||||||
| 144Pm | 61 | 83 | 143.912591(3) | 363(14) d | EC | 144Nd | 5− | ||||||||||||
| β+ (<8×10−5%)[1] | |||||||||||||||||||
| 144m1Pm | 840.90(5) keV | 780(200) ns | (9)+ | ||||||||||||||||
| 144m2Pm | 8595.8(22) keV | ~2.7 μs | (27+) | ||||||||||||||||
| 145Pm | 61 | 84 | 144.912749(3) | 17.7(4) y | EC | 145Nd | 5/2+ | ||||||||||||
| α (2.8×10−7%) | 141Pr | ||||||||||||||||||
| 146Pm | 61 | 85 | 145.914696(5) | 5.53(5) y | EC (66%) | 146Nd | 3− | ||||||||||||
| β− (34%) | 146Sm | ||||||||||||||||||
| 147Pm[n 9] | 61 | 86 | 146.9151385(26) | 2.6234(2) y | β− | 147Sm | 7/2+ | Trace[n 10] | |||||||||||
| 148Pm | 61 | 87 | 147.917475(7) | 5.368(2) d | β− | 148Sm | 1− | ||||||||||||
| 148mPm | 137.9(3) keV | 41.29(11) d | β− (95%) | 148Sm | 5−, 6− | ||||||||||||||
| IT (5%) | 148Pm | ||||||||||||||||||
| 149Pm[n 9] | 61 | 88 | 148.918334(4) | 53.08(5) h | β− | 149Sm | 7/2+ | ||||||||||||
| 149mPm | 240.214(7) keV | 35(3) μs | 11/2− | ||||||||||||||||
| 150Pm | 61 | 89 | 149.920984(22) | 2.68(2) h | β− | 150Sm | (1−) | ||||||||||||
| 151Pm[n 9] | 61 | 90 | 150.921207(6) | 28.40(4) h | β− | 151Sm | 5/2+ | ||||||||||||
| 152Pm | 61 | 91 | 151.923497(28) | 4.12(8) min | β− | 152Sm | 1+ | ||||||||||||
| 152m1Pm | 140(90) keV | 7.52(8) min | 4− | ||||||||||||||||
| 152m2Pm | 250(150)# keV | 13.8(2) min | (8) | ||||||||||||||||
| 153Pm | 61 | 92 | 152.924117(12) | 5.25(2) min | β− | 153Sm | 5/2− | ||||||||||||
| 154Pm | 61 | 93 | 153.92646(5) | 1.73(10) min | β− | 154Sm | (0, 1) | ||||||||||||
| 154mPm | 120(120) keV | 2.68(7) min | β− | 154Sm | (3, 4) | ||||||||||||||
| 155Pm | 61 | 94 | 154.92810(3) | 41.5(2) s | β− | 155Sm | (5/2−) | ||||||||||||
| 156Pm | 61 | 95 | 155.93106(4) | 26.70(10) s | β− | 156Sm | 4− | ||||||||||||
| 157Pm | 61 | 96 | 156.93304(12) | 10.56(10) s | β− | 157Sm | (5/2−) | ||||||||||||
| 158Pm | 61 | 97 | 157.93656(14) | 4.8(5) s | β− | 158Sm | |||||||||||||
| 159Pm | 61 | 98 | 158.93897(21)# | 1.648+0.43 −0.42 s[2] | β− | 159Sm | 5/2−# | ||||||||||||
| 160Pm | 61 | 99 | 159.94299(32)# | 874+16 −12 ms[2] | β− | 160Sm | |||||||||||||
| 161Pm | 61 | 100 | 160.94586(54)# | 724+20 −12 ms[2] | β− (98.91%) | 161Sm | 5/2−# | ||||||||||||
| β−, n (1.09%) | 160Sm | ||||||||||||||||||
| 162Pm | 61 | 101 | 161.95029(75)# | 467+38 −18 ms[2] | β− (98.21%) | 162Sm | |||||||||||||
| β−, n (1.79%) | 161Sm | ||||||||||||||||||
| 163Pm | 61 | 102 | 162.95368(86)# | 362+42 −30 ms[2] | β− (95%) | 163Sm | 5/2−# | ||||||||||||
| β−, n (1.79%) | 162Sm | ||||||||||||||||||
| 164Pm | 61 | 103 | 280+38 −33 ms[2] | β− (93.82%) | 164Sm | ||||||||||||||
| β−, n (6.18%) | 163Sm | ||||||||||||||||||
| 165Pm | 61 | 104 | 297+111 −101 ms[2] | β− (86.74%) | 165Sm | ||||||||||||||
| β−, n (13.26%) | 164Sm | ||||||||||||||||||
| 166Pm | 61 | 105 | 228+131 −112 ms[2] | β− | 166Sm | ||||||||||||||
| β−, n | 165Sm | ||||||||||||||||||
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Stability of promethium isotopes
Promethium is one of the two elements of the first 82 elements that has no stable isotopes. This is a rarely occurring effect of the liquid drop model. Namely, promethium does not have any beta-stable isotopes, as for any mass number, it is energetically favorable for a promethium isotope to undergo positron emission or beta decay, respectively forming a neodymium or samarium isotope which has a higher binding energy per nucleon. The other element for which this happens is technetium (Z = 43).
Promethium-147
Promethium-147 has a half-life of 2.62 years, and is a fission product produced in nuclear reactors via beta decay from neodymium-147. The isotopes 142Nd, 143Nd, 144Nd, 145Nd, 146Nd, 148Nd, and 150Nd are either stable or nearly so, so the isotopes of promethium with those masses cannot be produced by beta decay and therefore are not fission products in significant quantities. 149Pm and 151Pm have half-lives of only 53.08 and 28.40 hours, so are not found in spent nuclear fuel that has been cooled for months or years. It is found naturally mostly from the spontaneous fission of uranium-238 and less often from the alpha decay of europium-151.[3]
Promethium-147 is used as a beta particle source and a radioisotope thermoelectric generator (RTG) fuel; its power density is about 2 watts per gram. Mixed with a phosphor, it was used to illuminate Apollo Lunar Module electrical switch tips and painted on control panels of the Lunar Roving Vehicle.[4]
References
- Isotope masses from:
- Audi, Georges; Bersillon, Olivier; Blachot, Jean; Wapstra, Aaldert Hendrik (2003), "The NUBASE evaluation of nuclear and decay properties", Nuclear Physics A, 729: 3–128, Bibcode:2003NuPhA.729....3A, doi:10.1016/j.nuclphysa.2003.11.001
- Half-life, spin, and isomer data selected from the following sources.
- Audi, Georges; Bersillon, Olivier; Blachot, Jean; Wapstra, Aaldert Hendrik (2003), "The NUBASE evaluation of nuclear and decay properties", Nuclear Physics A, 729: 3–128, Bibcode:2003NuPhA.729....3A, doi:10.1016/j.nuclphysa.2003.11.001
- National Nuclear Data Center. "NuDat 2.x database". Brookhaven National Laboratory.
- Holden, Norman E. (2004). "11. Table of the Isotopes". In Lide, David R. (ed.). CRC Handbook of Chemistry and Physics (85th ed.). Boca Raton, Florida: CRC Press. ISBN 978-0-8493-0485-9.