Isotopes of gadolinium#Gadolinium-166

{{Anchor|Gadolinium-133|Gadolinium-134}}

{{Isotopes table

|symbol=Gd

|refs=NUBASE2020, AME2020 II

|notes=m, unc(), mass#, exen#, hl#, hl-nst, spin(), spin#, daughter-st, daughter-nst, EC, IT

}}

|-id=Gadolinium-135

| rowspan=2|¹³⁵Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 71

| rowspan=2|134.95250(43)#

| rowspan=2|1.1(2) s

| β⁺ (98%)

| ¹³⁵Eu

| rowspan=2|(5/2+)

| rowspan=2|

| rowspan=2|

|-

| β⁺, p (98%)

| ¹³⁴Sm

|-id=Gadolinium-136

| rowspan=2|¹³⁶Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 72

| rowspan=2|135.94730(32)#

| rowspan=2|1# s [>200 ns]

| β⁺?

| ¹³⁶Eu

| rowspan=2|0+

| rowspan=2|

| rowspan=2|

|-

| β⁺, p?

| ¹³⁵Sm

|-id=Gadolinium-137

| rowspan=2|¹³⁷Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 73

| rowspan=2|136.94502(32)#

| rowspan=2|2.2(2) s

| β⁺

| ¹³⁷Eu

| rowspan=2|(7/2)+#

| rowspan=2|

| rowspan=2|

|-

| β⁺, p?

| ¹³⁶Sm

|-id=Gadolinium-138

| ¹³⁸Gd

| style="text-align:right" | 64

| style="text-align:right" | 74

| 137.94025(22)#

| 4.7(9) s

| β⁺

| ¹³⁸Eu

| 0+

|

|

|-id=Gadolinium-138m

| style="text-indent:1em" | ^138mGd

| colspan="3" style="text-indent:2em" | 2232.6(11) keV

| 6.2(0.2) μs

| IT

| ¹³⁸Gd

| (8−)

|

|

|-id=Gadolinium-139

| rowspan=2|¹³⁹Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 75

| rowspan=2|138.93813(21)#

| rowspan=2|5.7(3) s

| β⁺

| ¹³⁹Eu

| rowspan=2|9/2−#

| rowspan=2|

| rowspan=2|

|-

| β⁺, p?

| ¹³⁸Sm

|-id=Gadolinium-139m

| rowspan=2 style="text-indent:1em" | ^139mGdOrder of ground state and isomer is uncertain.

| rowspan=2 colspan="3" style="text-indent:2em" | 250(150)# keV

| rowspan=2|4.8(9) s

| β⁺

| ¹³⁹Eu

| rowspan=2|1/2+#

| rowspan=2|

| rowspan=2|

|-

| β⁺, p?

| ¹³⁸Sm

|-id=Gadolinium-140

| rowspan=2|¹⁴⁰Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 76

| rowspan=2|139.933674(30)

| rowspan=2|15.8(4) s

| β⁺ (67(8)%)

| rowspan=2|¹⁴⁰Eu

| rowspan=2|0+

| rowspan=2|

| rowspan=2|

|-

| EC (33(8)%)

|-id=Gadolinium-141

| rowspan=2|¹⁴¹Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 77

| rowspan=2|140.932126(21)

| rowspan=2|14(4) s

| β⁺ (99.97%)

| ¹⁴¹Eu

| rowspan=2|(1/2+)

| rowspan=2|

| rowspan=2|

|-

| β⁺, p (0.03%)

| ¹⁴⁰Sm

|-id=Gadolinium-141m

| rowspan=2 style="text-indent:1em" | ^141mGd

| rowspan=2 colspan="3" style="text-indent:2em" | 377.76(9) keV

| rowspan=2|24.5(5) s

| β⁺ (89%)

| ¹⁴¹Eu

| rowspan=2|(11/2−)

| rowspan=2|

| rowspan=2|

|-

| IT (11%)

| ¹⁴¹Gd

|-id=Gadolinium-142

| rowspan=2|¹⁴²Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 78

| rowspan=2|141.928116(30)

| rowspan=2|70.2(6) s

| EC (52(5)%)

| rowspan=2|¹⁴²Eu

| rowspan=2|0+

| rowspan=2|

| rowspan=2|

|-

| β⁺ (48(5)%)

|-id=Gadolinium-143

| rowspan=3|¹⁴³Gd

| rowspan=3 style="text-align:right" | 64

| rowspan=3 style="text-align:right" | 79

| rowspan=3|142.92675(22)

| rowspan=3|39(2) s

| β⁺

| ¹⁴³Eu

| rowspan=3|1/2+

| rowspan=3|

| rowspan=3|

|-

| β⁺, p?

| ¹⁴²Sm

|-

| β⁺, α?

| ¹³⁹Pm

|-id=Gadolinium-143m

| rowspan=3 style="text-indent:1em" | ^143mGd

| rowspan=3 colspan="3" style="text-indent:2em" | 152.6(5) keV

| rowspan=3|110.0(14) s

| β⁺

| ¹⁴³Eu

| rowspan=3|11/2−

| rowspan=3|

| rowspan=3|

|-

| β⁺, p?

| ¹⁴²Sm

|-

| β⁺, α?

| ¹³⁹Pm

|-id=Gadolinium-144

| ¹⁴⁴Gd

| style="text-align:right" | 64

| style="text-align:right" | 80

| 143.922963(30)

| 4.47(6) min

| β⁺

| ¹⁴⁴Eu

| 0+

|

|

|-id=Gadolinium-144m

| style="text-indent:1em" | ^144mGd

| colspan="3" style="text-indent:2em" | 3433.1(5) keV

| 145(30) ns

| IT

| ¹⁴⁴Gd

| (10+)

|

|

|-id=Gadolinium-145

| ¹⁴⁵Gd

| style="text-align:right" | 64

| style="text-align:right" | 81

| 144.921710(21)

| 23.0(4) min

| β⁺

| ¹⁴⁵Eu

| 1/2+

|

|

|-id=Gadolinium-145m

| rowspan=2 style="text-indent:1em" | ^145mGd

| rowspan=2 colspan="3" style="text-indent:2em" | 749.1(2) keV

| rowspan=2|85(3) s

| IT (94.3%)

| ¹⁴⁵Gd

| rowspan=2|11/2−

| rowspan=2|

| rowspan=2|

|-

| β⁺ (5.7%)

| ¹⁴⁵Eu

|-id=Gadolinium-146

| ¹⁴⁶Gd

| style="text-align:right" | 64

| style="text-align:right" | 82

| 145.9183185(44)

| 48.27(10) d

| EC

| ¹⁴⁶Eu

| 0+

|

|

|-id=Gadolinium-147

| ¹⁴⁷Gd

| style="text-align:right" | 64

| style="text-align:right" | 83

| 146.9191010(20)

| 38.06(12) h

| β⁺

| ¹⁴⁷Eu

| 7/2−

|

|

|-id=Gadolinium-147m

| style="text-indent:1em" | ^147mGd

| colspan="3" style="text-indent:2em" | 8587.8(5) keV

| 510(20) ns

| IT

| ¹⁴⁷Gd

| 49/2+

|

|

|-

| ¹⁴⁸Gd

| style="text-align:right" | 64

| style="text-align:right" | 84

| 147.9181214(16)

| 86.9(39) y

| αTheorized to also undergo β⁺β⁺ decay to ¹⁴⁸Sm

| ¹⁴⁴Sm

|0+

|

|-id=Gadolinium-149

| rowspan=2|¹⁴⁹Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 85

| rowspan=2|148.9193477(36)

| rowspan=2|9.28(10) d

| β⁺

| ¹⁴⁹Eu

| rowspan=2|7/2−

| rowspan=2|

| rowspan=2|

|-

| α (4.3×10⁻⁴%)

| ¹⁴⁵Sm

|-id=Gadolinium-150

|¹⁵⁰Gd

|style="text-align:right" | 64

| style="text-align:right" | 86

| 149.9186639(65)

|1.79(8)×10⁶ y

| αTheorized to also undergo β⁺β⁺ decay to ¹⁵⁰Sm

| ¹⁴⁶Sm

|0+

|

|

|-id=Gadolinium-151

| rowspan=2|¹⁵¹Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 87

| rowspan=2|150.9203549(32)

| rowspan=2|123.9(10) d

| EC

| ¹⁵¹Eu

| rowspan=2|7/2−

| rowspan=2|

| rowspan=2|

|-

| α (1.1×10⁻⁶%)

| ¹⁴⁷Sm

|-id=Gadolinium-152

| ¹⁵²Gdprimordial radionuclide

| style="text-align:right" | 64

| style="text-align:right" | 88

| 151.9197984(11)

| 1.08(8)×10¹⁴ y

| αTheorized to also undergo β⁺β⁺ decay to ¹⁵²Sm

| ¹⁴⁸Sm

| 0+

| 0.0020(1)

|

|-

| ¹⁵³Gd

| style="text-align:right" | 64

| style="text-align:right" | 89

| 152.9217569(11)

| 240.6(7) d

| EC

| ¹⁵³Eu

| 3/2−

|

|

|-id=Gadolinium-153m1

| style="text-indent:1em" | ^153m1Gd

| colspan="3" style="text-indent:2em" | 95.1737(8) keV

| 3.5(4) μs

| IT

| ¹⁵³Gd

| 9/2+

|

|

|-id=Gadolinium-153m2

| style="text-indent:1em" | ^153m2Gd

| colspan="3" style="text-indent:2em" | 171.188(4) keV

| 76.0(14) μs

| IT

| ¹⁵³Gd

| (11/2−)

|

|

|-id=Gadolinium-154

| ¹⁵⁴Gd

| style="text-align:right" | 64

| style="text-align:right" | 90

| 153.9208730(11)

| colspan="3" style="text-align:center;"|Observationally StableBelieved to undergo α decay to ¹⁵⁰Sm

| 0+

| 0.0218(2)

|

|-id=Gadolinium-155

| ¹⁵⁵GdFission product

| style="text-align:right" | 64

| style="text-align:right" | 91

| 154.9226294(11)

| colspan="3" style="text-align:center;"|Observationally StableBelieved to undergo α decay to ¹⁵¹Sm

| 3/2−

| 0.1480(9)

|

|-id=Gadolinium-155m

| style="text-indent:1em" | ^155mGd

| colspan="3" style="text-indent:2em" | 121.10(19) keV

| 31.97(27) ms

| IT

| ¹⁵⁵Gd

| 11/2−

|

|

|-id=Gadolinium-156

| ¹⁵⁶Gd

| style="text-align:right" | 64

| style="text-align:right" | 92

| 155.9221301(11)

| colspan="3" style="text-align:center;"|Stable

| 0+

| 0.2047(3)

|

|-id=Gadolinium-156m

| style="text-indent:1em" | ^156mGd

| colspan="3" style="text-indent:2em" | 2137.60(5) keV

| 1.3(1) μs

| IT

| ¹⁵⁶Gd

| 7-

|

|

|-id=Gadolinium-157

| ¹⁵⁷Gd

| style="text-align:right" | 64

| style="text-align:right" | 93

| 156.9239674(10)

| colspan="3" style="text-align:center;"|Stable

| 3/2−

| 0.1565(4)

|

|-id=Gadolinium-157m1

| style="text-indent:1em" | ^157m1Gd

| colspan="3" style="text-indent:2em" | 63.916(5) keV

| 460(40) ns

| IT

| ¹⁵⁷Gd

| 5/2+

|

|

|-id=Gadolinium-157m2

| style="text-indent:1em" | ^157m2Gd

| colspan="3" style="text-indent:2em" | 426.539(23) keV

| 18.5(23) μs

| IT

| ¹⁵⁷Gd

| 11/2−

|

|

|-id=Gadolinium-158

| ¹⁵⁸Gd

| style="text-align:right" | 64

| style="text-align:right" | 94

| 157.9241112(10)

| colspan="3" style="text-align:center;"|Stable

| 0+

| 0.2484(8)

|

|-id=Gadolinium-159

| ¹⁵⁹Gd

| style="text-align:right" | 64

| style="text-align:right" | 95

| 158.9263958(11)

| 18.479(4) h

| β⁻

| ¹⁵⁹Tb

| 3/2−

|

|

|-id=Gadolinium-160

| ¹⁶⁰Gd

| style="text-align:right" | 64

| style="text-align:right" | 96

| 159.9270612(12)

| colspan="3" style="text-align:center;"|Observationally StableBelieved to undergo β⁻β⁻ decay to ¹⁶⁰Dy with a half-life over 3.1×10¹⁹ years

| 0+

| 0.2186(3)

|

|-id=Gadolinium-161

| ¹⁶¹Gd

| style="text-align:right" | 64

| style="text-align:right" | 97

| 160.9296763(16)

| 3.646(3) min

| β⁻

| ¹⁶¹Tb

| 5/2−

|

|

|-id=Gadolinium-162

| ¹⁶²Gd

| style="text-align:right" | 64

| style="text-align:right" | 98

| 161.9309918(43)

| 8.4(2) min

| β⁻

| ¹⁶²Tb

| 0+

|

|

|-id=Gadolinium-163

| ¹⁶³Gd

| style="text-align:right" | 64

| style="text-align:right" | 99

| 162.93409664(86)

| 68(3) s

| β⁻

| ¹⁶³Tb

| 7/2+

|

|

|-id=Gadolinium-163m

| rowspan=2 style="text-indent:1em" | ^163mGd

| rowspan=2 colspan="3" style="text-indent:2em" | 138.22(20) keV

| rowspan=2|23.5(10) s

| IT?

| ¹⁶³Gd

| rowspan=2|1/2−

| rowspan=2|

| rowspan=2|

|-

| β⁻

| ¹⁶³Tb

|-id=Gadolinium-164

| ¹⁶⁴Gd

| style="text-align:right" | 64

| style="text-align:right" | 100

| 163.9359162(11)

| 45(3) s

| β⁻

| ¹⁶⁴Tb

| 0+

|

|

|-id=Gadolinium-164m

| style="text-indent:1em" | ^164mGd

| colspan="3" style="text-indent:2em" | 1095.8(4) keV

| 589(18) ns

| IT

| ¹⁶⁴Gd

| (4−)

|

|

|-id=Gadolinium-165

| ¹⁶⁵Gd

| style="text-align:right" | 64

| style="text-align:right" | 101

| 164.9393171(14)

| 11.6(10) s

| β⁻

| ¹⁶⁵Tb

| 1/2−#

|

|

|-id=Gadolinium-166

| ¹⁶⁶Gd

| style="text-align:right" | 64

| style="text-align:right" | 102

| 165.9416304(17)

| 5.1(8) s

| β⁻

| ¹⁶⁶Tb

| 0+

|

|

|-id=Gadolinium-166m

| style="text-indent:1em" | ^166mGd

| colspan="3" style="text-indent:2em" | 1601.5(11) keV

| 950(60) ns

| IT

| ¹⁶⁶Gd

| (6−)

|

|

|-id=Gadolinium-167

| ¹⁶⁷Gd

| style="text-align:right" | 64

| style="text-align:right" | 103

| 166.9454900(56)

| 4.2(3) s

| β⁻

| ¹⁶⁷Tb

| 5/2−#

|

|

|-id=Gadolinium-168

| ¹⁶⁸Gd

| style="text-align:right" | 64

| style="text-align:right" | 104

| 167.94831(32)#

| 3.03(16) s

| β⁻

| ¹⁶⁸Tb

| 0+

|

|

|-id=Gadolinium-169

| rowspan=2|¹⁶⁹Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 105

| rowspan=2|168.95288(43)#

| rowspan=2|750(210) ms

| β⁻

| ¹⁶⁹Tb

| rowspan=2|7/2−#

| rowspan=2|

| rowspan=2|

|-

| β⁻, n? (<0.7%){{cite journal |last1=Kiss |first1=G. G. |last2=Vitéz-Sveiczer |first2=A. |last3=Saito |first3=Y. |display-authors=et al. |title=Measuring the β-decay properties of neutron-rich exotic Pm, Sm, Eu, and Gd isotopes to constrain the nucleosynthesis yields in the rare-earth region |journal=The Astrophysical Journal |volume=936 |issue=107 |date=2022 |page=107 |doi=10.3847/1538-4357/ac80fc|bibcode=2022ApJ...936..107K |doi-access=free |hdl=2117/375253 |hdl-access=free }}

| ¹⁶⁸Tb

|-id=Gadolinium-170

| rowspan=2|¹⁷⁰Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 106

| rowspan=2|169.95615(54)#

| rowspan=2|{{val|675|94|75|u=ms}}

| β⁻

| ¹⁷⁰Tb

| rowspan=2|0+

| rowspan=2|

| rowspan=2|

|-

| β⁻, n? (<3%)

| ¹⁶⁹Tb

|-id=Gadolinium-171

| rowspan=2|¹⁷¹Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 107

| rowspan=2|170.96113(54)#

| rowspan=2|{{val|392|145|136|u=ms}}

| β⁻

| ¹⁷¹Tb

| rowspan=2|9/2+#

| rowspan=2|

| rowspan=2|

|-

| β⁻, n? (<10%)

| ¹⁷⁰Tb

|-id=Gadolinium-172

| rowspan=2|¹⁷²Gd

| rowspan=2 style="text-align:right" | 64

| rowspan=2 style="text-align:right" | 108

| rowspan=2|171.96461(32)#

| rowspan=2|{{val|163|113|99|u=ms}}

| β⁻

| ¹⁷²Tb

| rowspan=2|0+#

| rowspan=2|

| rowspan=2|

|-

| β⁻, n? (<50%)

| ¹⁷¹Tb

{{Isotopes table/footer}}

With a half-life of {{val|86.9|3.9|u=year}} via alpha decay alone, gadolinium-148 would be ideal for radioisotope thermoelectric generators. However, gadolinium-148 cannot be economically synthesized in sufficient quantities to power a RTG.{{cite book|year=2009|doi=10.17226/12653|title=Radioisotope Power Systems: An Imperative for Maintaining U.S. Leadership in Space Exploration|isbn=978-0-309-13857-4|last1=Council|first1=National Research|last2=Sciences|first2=Division on Engineering Physical|last3=Board|first3=Aeronautics Space Engineering|last4=Board|first4=Space Studies|last5=Committee|first5=Radioisotope Power Systems|citeseerx=10.1.1.367.4042}}

Gadolinium-153 has a half-life of {{val|240.4|10|u=day}} and emits gamma radiation with strong peaks at 41 keV and 102 keV. It is used as a gamma ray source for X-ray absorptiometry and fluorescence, for bone density gauges for osteoporosis screening, and for radiometric profiling in the Lixiscope portable x-ray imaging system, also known as the Lixi Profiler. In nuclear medicine, it serves to calibrate the equipment needed like single-photon emission computed tomography systems (SPECT) to make x-rays. It ensures that the machines work correctly to produce images of radioisotope distribution inside the patient. This isotope is produced in a nuclear reactor from europium or enriched gadolinium.{{cite web|url=http://radioisotopes.pnl.gov/gadolinium.stm |title=PNNL: Isotope Sciences Program – Gadolinium-153 |work=pnl.gov |url-status=dead |archive-url=https://web.archive.org/web/20090527014921/http://radioisotopes.pnl.gov/gadolinium.stm |archive-date=2009-05-27 }} It can also detect the loss of calcium in the hip and back bones, allowing the ability to diagnose osteoporosis.{{cite web|title=Gadolinium|url=http://nobel.scas.bcit.ca/resource/ptable/gd.htm|work=BCIT Chemistry Resource Center|publisher=British Columbia Institute of Technology|access-date=30 March 2011|archive-date=23 August 2011|archive-url=https://web.archive.org/web/20110823085358/http://nobel.scas.bcit.ca/resource/ptable/gd.htm|url-status=dead}}

{{reflist}}

• Isotope masses from:
• {{NUBASE 2003}}
• Isotopic compositions and standard atomic masses from:
• {{CIAAW2003}}
• {{CIAAW 2005}}
• Half-life, spin, and isomer data selected from the following sources.
• {{NUBASE 2003}}
• {{NNDC}}
• {{CRC85|chapter=11}}

{{Navbox element isotopes}}

Category:Gadolinium

Gadolinium