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Silber-Isotope

Liste, Daten und Eigenschaften aller bekannten natürlichen und künstlichen Isotope des Silbers sowie radioaktive Zerfallsprodukte bzw. Zwischenprodukte.



Silber Isotope

Natürliche Vorkommen des chemischen Elements Silber setzen sich aus zwei Isotopen im ungefähren Verhältnis von 1:1 zusammen. Diese beiden Silber-Isotope 107 und 109 gelten als stabil und sind NMR-aktiv.

 

Natürlich auftretende Silber-Isotope

Atommasse ArAnteilHalbwertszeitSpin
Silber
Isotopengemisch
107,8682 u100 %
Isotop 107Ag106,90509(2) u51,839(8) %stabil1/2-
Isotop 109Ag108,904755(9) u48,161(8) %stabil1/2-

 

Neben den stabilen Silberisotopen sind 28 weitere Nuklide bekannt.

 

Isotopentabelle: Silber

Isotop
Nuklid
ZANNameAtommasse
[Kernmasse]
{Massenüberschuss}
Spin I
(h/2π)
μA-Nuk
123456789
92Ag479245Silber-9291,96014(54) u
[91,9343581 u]
{-37,12935 MeV}
93Ag479346Silber-9392,95033(43) u
[92,9245481 u]
{-46,26731 MeV}
94Ag479447Silber-9493,94374(43) u
[93,9179581 u]
{-52,40585 MeV}
(0+)
94m1Ag479447Silber-94m193,94374(43) u
[93,9179581 u]
{-52,40585 MeV}
(7+)
94m2Ag479447Silber-94m293,94374(43) u
[93,9179581 u]
{-52,40585 MeV}
(21+)
95Ag479548Silber-9594,93602(32) u
[94,9102381 u]
{-59,59699 MeV}
(9/2+)
95m1Ag479548Silber-95m194,93602(32) u
[94,9102381 u]
{-59,59699 MeV}
(1/2-)
95m2Ag479548Silber-95m294,93602(32) u
[94,9102381 u]
{-59,59699 MeV}
(23/2+)
95m3Ag479548Silber-95m394,93602(32) u
[94,9102381 u]
{-59,59699 MeV}
(37/2+)
96Ag479649Silber-9695,93074(10) u
[95,9049581 u]
{-64,51527 MeV}
(8)+
96mAg479649Silber-96m95,93074(10) u
[95,9049581 u]
{-64,51527 MeV}
(2+)
97Ag479750Silber-9796,92397(12) u
[96,8981881 u]
{-70,82149 MeV}
(9/2+)+6,13(12)
98Ag479851Silber-9897,92156(4) u
[97,8957781 u]
{-73,06639 MeV}
(6+)4,5798Cd
99Ag479952Silber-9998,917646(7) u
[98,8918641 u]
{-76,71226 MeV}
(9/2+)+5,81(3)
99mAg479952Silber-99m98,917646(7) u
[98,8918641 u]
{-76,71226 MeV}
(1/2-)99Cd
100In
100Ag4710053Silber-10099,916115(5) u
[99,8903331 u]
{-78,13837 MeV}
(5)++4,37(3)
100mAg4710053Silber-100m99,916115(5) u
[99,8903331 u]
{-78,13837 MeV}
(2)+100Cd
101In
101Ag4710154Silber-101100,912684(5) u
[100,8869021 u]
{-81,33433 MeV}
9/2+5,619(11)101Cd
101mAg4710154Silber-101m100,912684(5) u
[100,8869021 u]
{-81,33433 MeV}
(1/2)-
102Ag4710255Silber-102101,911705(9) u
[101,8859231 u]
{-82,24626 MeV}
5(+)+ 4,6(7)102Cd
102mAg4710255Silber-102m101,911705(9) u
[101,8859231 u]
{-82,24626 MeV}
2++ 4,1(3)
103Ag4710356Silber-103102,908961(4) u
[102,8831791 u]
{-84,80228 MeV}
7/2++ 4,426(2)103Cd
103mAg4710356Silber-103m102,908961(4) u
[102,8831791 u]
{-84,80228 MeV}
1/2-
104Ag4710457Silber-104103,908624(4) u
[103,8828421 u]
{-85,1162 MeV}
5++ 3,914(3)104Cd
104mAg4710457Silber-104m103,908624(4) u
[103,8828421 u]
{-85,1162 MeV}
2++ 3,686(3)
105Ag4710558Silber-105104,906526(5) u
[104,8807441 u]
{-87,07047 MeV}
1/2-0,1013(10)105Cd
105mAg4710558Silber-105m104,906526(5) u
[104,8807441 u]
{-87,07047 MeV}
7/2++ 4,408(13)
106Ag4710659Silber-106105,906664(3) u
[105,8808821 u]
{-86,94192 MeV}
1++ 2,8(2)
106mAg4710659Silber-106m105,906664(3) u
[105,8808821 u]
{-86,94192 MeV}
6+(+) 3,704(4)
107Ag4710760Silber-107106,90509(2) u
[106,8793081 u]
{-88,4081 MeV}
1/2-- 0,11352(5)107Cd
107Pd
107mAg4710760Silber-107m106,90509(2) u
[106,8793081 u]
{-88,4081 MeV}
7/2+(+) 4,392(5)
108Ag4710861Silber-108107,9059503(26) u
[107,8801684 u]
{-87,60673 MeV}
1+2,6838(16)
108mAg4710861Silber-108m107,9059503(26) u
[107,8801684 u]
{-87,60673 MeV}
6+3,58(2)
109Ag4710962Silber-109108,904755(9) u
[108,8789731 u]
{-88,72015 MeV}
1/2-0,13051(5)109Cd
109Pd
109mAg4710962Silber-109m108,904755(9) u
[108,8789731 u]
{-88,72015 MeV}
7/2+4,394(6)
110Ag4711063Silber-110109,9061107(14) u
[109,8803288 u]
{-87,45732 MeV}
1+2,7225(14)
110m1Ag4711063Silber-110m1109,9061107(14) u
[109,8803288 u]
{-87,45732 MeV}
2-
110m2Ag4711063Silber-110m2109,9061107(14) u
[109,8803288 u]
{-87,45732 MeV}
6++ 3,602(4)
111Ag4711164Silber-111110,9052968(16) u
[110,8795149 u]
{-88,21546 MeV}
1/2-- 0,146(2)111Pd
111mAg4711164Silber-111m110,9052968(16) u
[110,8795149 u]
{-88,21546 MeV}
7/2+
112Ag4711265Silber-112111,9070485(26) u
[111,8812666 u]
{-86,58376 MeV}
2(-)0,0547(5)112Pd
113Ag4711366Silber-113112,906573(18) u
[112,8807911 u]
{-87,02669 MeV}
1/2-0,159(2)113Pd
113mAg4711366Silber-113m112,906573(18) u
[112,8807911 u]
{-87,02669 MeV}
7/2+
114Ag4711467Silber-114113,908823(5) u
[113,8830411 u]
{-84,93083 MeV}
1+114Pd
115Ag4711568Silber-115114,908767(20) u
[114,8829851 u]
{-84,98299 MeV}
1/2-115Pd
252Cf
115mAg4711568Silber-115m114,908767(20) u
[114,8829851 u]
{-84,98299 MeV}
7/2+
116Ag4711669Silber-116115,911387(3) u
[115,8856051 u]
{-82,54248 MeV}
(0-)116Pd
116m1Ag4711669Silber-116m1115,911387(3) u
[115,8856051 u]
{-82,54248 MeV}
(3+)
116m2Ag4711669Silber-116m2115,911387(3) u
[115,8856051 u]
{-82,54248 MeV}
(6-)
117Ag4711770Silber-117116,911774(15) u
[116,8859921 u]
{-82,18199 MeV}
(1/2-)117Pd
117mAg4711770Silber-117m116,911774(15) u
[116,8859921 u]
{-82,18199 MeV}
(7/2+)
118Ag4711871Silber-118117,9145955(27) u
[117,8888136 u]
{-79,55378 MeV}
1(-)118Pd
118mAg4711871Silber-118m117,9145955(27) u
[117,8888136 u]
{-79,55378 MeV}
4(+)
119Ag4711972Silber-119118,915570(16) u
[118,8897881 u]
{-78,64604 MeV}
(7/2+)119Pd
119mAg4711972Silber-119m118,915570(16) u
[118,8897881 u]
{-78,64604 MeV}
(1/2-)
120Ag4712073Silber-120119,918785(5) u
[119,8930031 u]
{-75,65129 MeV}
3(+)120Pd
120mAg4712073Silber-120m119,918785(5) u
[119,8930031 u]
{-75,65129 MeV}
6(-)
121Ag4712174Silber-121120,920125(13) u
[120,8943431 u]
{-74,40308 MeV}
(7/2+)
122Ag4712275Silber-122121,92366(4) u
[121,8978781 u]
{-71,11025 MeV}
(3+)
122m1Ag4712275Silber-122m1121,92366(4) u
[121,8978781 u]
{-71,11025 MeV}
(1-)
122m2Ag4712275Silber-122m2121,92366(4) u
[121,8978781 u]
{-71,11025 MeV}
(9-)
123Ag4712376Silber-123122,92534(3) u
[122,8995581 u]
{-69,54534 MeV}
(7/2+)
124Ag4712477Silber-124123,92893(27) u
[123,9031481 u]
{-66,20128 MeV}
(3+)
125Ag4712578Silber-125124,93073(46) u
[124,9049481 u]
{-64,52459 MeV}
(9/2+)
125mAg4712578Silber-125m124,93073(46) u
[124,9049481 u]
{-64,52459 MeV}
(17/2-)
126Ag4712679Silber-126125,93486(21) u
[125,9090781 u]
{-60,67752 MeV}
(3+)
127Ag4712780Silber-127126,93726(21) u
[126,9114781 u]
{-58,44193 MeV}
128Ag4712881Silber-128127,94136(32) u
[127,9155781 u]
{-54,62281 MeV}
129Ag4712982Silber-129128,94420(43) u
[128,9184181 u]
{-51,97737 MeV}
(9/2+)
129mAg4712982Silber-129m128,94420(43) u
[128,9184181 u]
{-51,97737 MeV}
(1/2-)
130Ag4713083Silber-130129,95094(54) u
[129,9251581 u]
{-45,6991 MeV}
131Ag4713184Silber-131130,95665(54) u
[130,9308681 u]
{-40,38026 MeV}
132Ag4713285Silber-132131,96372(54) u
[131,9379381 u]
{-33,7946 MeV}

 

 

IsotopZerfall (radioaktiver Zerfall)AEMehr
HalbwertszeitZerfallsartAnteilEnergieInfo
1101112131415
Ag-92EE/β+ zu 92Pd
EE, p zu 91Rh
p zu 91Pd
?
?
?


Ag-93228(16) nsEE/β+ zu 93Pd
EE, p zu 92Rh
p zu 92Pd
?
?
?
12,73(50) MeV

AL
Ag-9426 msEE/β+ zu 94Pd
EE, p zu 93Rh
100 %
?
13,69(40) MeV
AL
Ag-94m10,55(6) sEE zu 94Pd
EE, p zu 93Rh
80 %
20 %

+x keV
Ag-94m20,40(4) sEE zu 94Pd
EE, p zu 93Rh
p zu 93Pd
2p zu 92Rh
95,4(7) %
27 %
4,1(6) %
0,5(3) %



6670 keV
Ag-951,75(12) sEE/β+ zu 95Pd
EE, p zu 94Rh
100 %
?
10,37(30) MeV
AL
Ag-95m1500 msIso zu 95Ag100 %344,2(3) keV
Ag-95m216 msIso zu 95Ag100 %2531,3(15) keV
Ag-95m340 msIso zu 95Ag100 %4860,0(15) keV
Ag-964,40(6) sEE/β+ zu 96Pd
EE, p zu 95Rh
91,5 %
8,5 %
11,67(9) MeV
AL
Ag-96m6,9(6) sEE/β+ zu 96Pd
EE, p zu 95Rh
82 %
18 %

+y keV
Ag-9725,5(3) sEE zu 97Pd100 %6,98(11) MeVAL
Ag-9847,5(3) sEE/β+ zu 98Pd
EE, p zu 97Rh
99,9988 %
0,0011 %
0,825(30) MeV
AL
Ag-99124(3) sEE/β+ zu 99Pd100 %5,470(8) MeVAL
Ag-99m10,5(5) sIso zu 99Ag100 %506,2(4) keV
Ag-1002,01(9) MinutenEE/β+ zu 100Pd100 %7,075(18) MeVAL
Ag-100m2,24(13) MinutenEE/β+ zu 100Pd
Iso zu 100Ag
?
?

15,52(16) keV
Ag-10111,1(3) MinutenEE/β+ zu 101Pd100 %4,098(7) MeVAL
Ag-101m3,10(10) sIso zu 101Ag100 %274,1(3) keV
Ag-10212,9(3) MinutenEE/β+ zu 102Pd100 %5,656(8) MeVAL
Ag-102m7,7(5) MinutenEE/β+ zu 102Pd
Iso zu 102Ag
51(5) %
49(5) %

9,40(7) keV
Ag-10365,7(7) MinutenEE/β+ zu 103Pd100 %2,654(4) MeVAL
Ag-103m5,7(3) sIso zu 103Ag100 %134,45(4) keV
Ag-10469,2(10) MinutenEE/β+ zu 104Pd100 %4,279(4) MeVAL
Ag-104m33,5(20) MinutenEE/β+ zu 104Pd
Iso zu 104Ag
> 99,93 %
< 0,07 %

6,90(22) keV
Ag-10541,29(7) TageEE/β+ zu 105Pd100 %1,347(5) MeVAL
Ag-105m7,23(16) MinutenEE/β+ zu 105Pd
Iso zu 105Ag
0,34 %
99,66(7) %

25,479(16) keV
Ag-10623,96(4) MinutenEE/β+ zu 106Pd
β- zu 106Cd
99,5(5) %
0,5 %
2,965(3) MeV
0,1898(28) MeV
AL
Ag-106m8,28(2) TageEE/β+ zu 106Pd100 %89,66(7) keV
Ag-107stabilAL
Ag-107m44,3(2) sIso zu 107Ag100 %93,125(19) keV
Ag-1082,382(11) MinutenEE/β+ zu 108Pd
β- zu 108Cd
2,85(29) %
97,15(20) %
1,9174(26) MeV
1,6457(26) MeV
AL
Ag-108m438(9) JahreEE/β+ zu 108Pd
Iso zu 108Ag
91,3(9) %
8,7(9) %

109,466(7) keV
Ag-109stabilAL
Ag-109m39,79(21) sIso zu 109Ag100 %88,03337(10) keV
Ag-11024,56(11) sEE zu 110Pd
β- zu 110Cd
0,30(6) %
99,70(6) %
0,8736(14) MeV
2,8907(13) MeV
AL
Ag-110m1660(40) ns1,112(16) keV
Ag-110m2249,83(4) TageIso zu 110Ag
β- zu 110Cd
1,33(8) %
98,67(8) %

117,59(5) keV
Ag-1117,45(1) Tageβ- zu 111Cd100 %1,0368(14) MeVAL
Ag-111m64,8(8) sβ- zu 111Cd
Iso zu 111Ag
0,7(2) %
99,3(2) %

59,82(4) keV
Ag-1123,130(9) Stundenβ- zu 112Cd100 %3,9911(24) MeVAL
Ag-1135,37(5) Stundenβ- zu 113Cd100 %2,016(17) MeVAL
Ag-113m68,7(16) sβ- zu 113Cd
Iso zu 113Ag
36(7) %
64(7) %

43,5(1) keV
Ag-1144,6(1) sβ- zu 114Cd
MeV
100 %
5,084(5) MeV
AL
Ag-11520,0(5) Minutenβ- zu 115Cd100 %3,102(18) MeVAL
Ag-115m18,0(7) sβ- zu 115Cd
Iso zu 115Ag
79,0(3) %
21,0(3) %

41,16(10) keV
Ag-116230(5) sβ- zu 116Cd100 %6,170(3) MeVAL
Ag-116m120(1) sβ- zu 116Cd
Iso zu 116Ag
93,0 %
7,0 %

47,90(10) keV
Ag-116m29,3(3) sβ- zu 116Cd
Iso zu 116Ag
92,0 %
8,0 %

129,80(22) keV
Ag-117ca. 72,8 sβ- zu 117Cd100 %4,236(14) MeVAL
Ag-117m5,34(5) sβ- zu 117Cd
Iso zu 117Ag
94,0(15) %
6,0(15) %

28,6(2) keV
Ag-1183,76(15) sβ- zu 118Cd100 %7,148(20) MeVAL
Ag-118m2,0(2) sβ- zu 118Cd
Iso zu 118Ag
59 %
41 %

127,63(10) keV
Ag-1192,1(1) sβ- zu 119Cd100 %5,33(40) MeV0 + X keVAL
Ag-119m6,0(5) sβ- zu 119Cd100 %+y keVAL
Ag-1201,23(4) sβ- zu 120Cd
β-, n zu 119Cd
> 99,997 %
< 0,003 %
8,306(6) MeV
0,25(4) MeV
AL
Ag-120m0,32(4) sβ- zu 120Cd
Iso zu 120Ag
ca. 63 %
ca. 37 %

203,0(10) keV
Ag-1210,78(2) sβ- zu 121Cd
β-, n zu 120Cd
99,92 %
0,08 %
6,671(12) MeV
1,483(13) MeV
AL
Ag-122529(13) msβ- zu 122Cd
β-, n zu 121Cd
99,8 %
0.186(10) %
9,510(4) MeV
1,90(4) MeV
AL
Ag-122m10,55(5) sβ- zu 122Cd
β-, n zu 121Cd
Iso zu 122Ag
?
?
?


+x keV
Ag-122m20,20(5) sβ- zu 122Cd
β-, n zu 121Cd
?
?

80(50) keV
Ag-123298(8) msβ- zu 123Cd
β-, n zu 122Cd
99,45 %
0,55(7) %
7,87(3) MeV
2,99(3) MeV
AL
Ag-124191(28) msβ- zu 124Cd
β-, n zu 123Cd
98,7 %
1,3(9) %
10,50(25) MeV
3,14(25) MeV
AL
Ag-125159(8) msβ- zu 125Cd
β-, n zu 124Cd

?
8,83(43) MeV
4,11(43) MeV
AL
Ag-125m0,491(20) μsIso zu 125Ag100 %1,5012(6) keV
Ag-12652(10) msβ- zu 126Cd
β-, n zu 125Cd
100 %
?
11,58(29) MeV
4,60(20) MeV
+xAL
Ag-127109(25) msβ- zu 127Cd100 %10,31(20) MeVAL
Ag-12858(5) msβ- zu 128Cd
β-, n zu 127Cd
100 %
?
12,62(30) MeV
6,06(30) MeV
AL
Ag-12946 msβ- zu 129Cd
β-, n zu 128Cd
100 %
?
11,08(40) MeV
7,19(40) MeV
AL
Ag-129m160 msβ- zu 129Cd
β-, n zu 128Cd
> 0 %
?

+x keV
Ag-13042(5) msβ- zu 130Cd
β-, n zu 129Cd
β-, 2n zu 128Cd

?
?


AL
Ag-13135(8) msβ- zu 131Cd
β-, n zu 130Cd
β-, 2n zu 129Cd
100 %
?
?
14,84(51) MeV
12,67(50) MeV
Ag-13228 msβ- zu 132Cd
β-, n zu 131Cd
β-, 2n zu 130Cd
β-, 3n zu 129Cd
100 %
?
?
?
16,47(54) MeV
13,36(51) MeV

 

Erläuterungen zu den einzelnen Spalten:

1 - Symbol mit Nukleonenzahl.
2 - Z = Anzahl der Protonen (Ordnungszahl).
3 - Massenzahl A.
4 - N = Anzahl der Neutronen.
5 - Bezeichnung des Silber-Isotops; gegebenenfalls Trivialnamen.
6 - Relative Atommasse des Silber-Isotops (Isotopenmasse inklusive Elektronen) und in eckigen Klammern die Masse des Atomkerns (Kernmasse, Nuklidmasse ohne Elektronen), jeweils bezogen auf 12C = 12,00000 [2]. Zusätzlich ist der Massenüberschuss (Massenexzess) in MeV angegeben.
7 - Kernspin I, Einheit: h/2π.
8 - Kernmagnetisches Moment μmag.
9 - Ausgangsnuklide: Mögliche, angenommene oder tatsächliche Ausgangs-Nuklide (Mutternuklide, Elternnuklide). Die entsprechenden Zerfalls-Modi sind gegebenenfalls bei den Daten des jeweiligen Ausgangsnuklids zu finden.
10 - Zerfall: Halbwertszeiten des Silber-Isotops mit a = Jahre; ; d = Tage; h = Stunden; min = Minuten; s = Sekunden.
11 - Zerfall: Zerfallsart in die jeweiligen Tochternuklide mit n = Neutronenemission; p = Protonenemission; α = Alpha-Zerfall; ß- = Beta-Minus-Zerfall unter Elektronenemission; EE = Elektroneneinfang; ß+ = Positronenemission; ε = ß+ und/oder EE; Iso = Isomerieübergang; CZ = Cluster-Zerfall; SZ = Spontanzerfall.
12 - Zerfall: Zerfallsanteil in Prozent (%).
13 - Zerfall: Zerfallsenergie; Partikelenergie bezogen auf Zerfallsart.
14 - AE = Anregungsenergie für metastabile Kerne.
15 - Sonstige Informationen und Hinweise: AL = Weitere Niveaus, so genannte Adopted Levels (Verlinkung auf externe Daten [1]).

Sonstige:

()- Eingeklammerte Ziffern: Unsicherheit zur Darstellung der Streubreite des angegebenen Wertes.
~ - Theoretische Werte oder systematische Trends.
  - ungelistet-: Nuklide, die in der Literatur bereits erwänhnt wurden, aber aus irgendwelchen Gründen in den aktuellen Nuklidtabellen nicht mehr zu finden sind, weil sich deren Entdeckung z. B. nicht bestätigt hat.

 

NMR-aktive Silber-Nuklide

Nuklid
Anteil
Spin I
Kernmagnetisches
Moment
μ/μN
Gyromagnetisches
Verhältnis
107 rad T-1 s-1
Quadrupol-
Moment
Q [barn]
Resonanz-
Frequenz
v0 bei 1 T
Relative
Empfindlichkeit
H0 = const.
v0 = const. *
107Ag
51,839(8) %
1/2-
- 0,11352(5)1,08781,73310,00007
0,0407
109Ag
48,161(8) %
1/2-
0,13051(5)1,25191,99240,00010
0,0468

*) bezogen auf 1H = 1,000

 

Strahlenschutz

Für den Umgang mit den Silber-Radionukliden gelten gemäß Strahlenschutzverordnung (StrlSchV 2018) unter anderem folgende Werte (Spalten 1 bis 7):

NuklidFreigrenzenHRQ-SchwelleOFKTochternuklideHalbwertszeit
Ag-102105 Bq10 Bq/g12,9 Minuten
Ag-103106 Bq10 Bq/g1,1 Stunden
Ag-104106 Bq10 Bq/g69,2 Minuten
Ag-104m106 Bq10 Bq/g33,5 Minuten
Ag-105106 Bq1 Bq/g0,1 TBq1 Bq cm-241,3 Tage
Ag-106106 Bq10 Bq/g24,0 Minuten
Ag-106m106 Bq10 Bq/g8,5 Tage
Ag-108m+106 Bq0,1 Bq/g0,04 TBq1 Bq cm-2Ag-108418,0 Jahre
Ag-110m+106 Bq0,1 Bq/g0,02 TBq1 Bq cm-2249,8 Tage
Ag-111106 Bq100 Bq/g2 TBq100 Bq cm-27,5 Tage
Ag-112105 Bq10 Bq/g3,1 Stunden
Ag-115105 Bq10 Bq/g20,0 Minuten

(HRQ = Hochradioaktive Quellen; OFK = Oberflächenkontamination)

 

Kernisobare Nuklide des Silbers

Zu den Silber-Nukliden isobare Atomkerne befinden sich in der jeweiligen Tabellenzeile; Z = Ordnungszahl; A = Nukleonenzahl (Massenzahl).

Z:343536373839404142434445464748495051525354555657585960616263
ASeBrKrRbSrYZrNbMoTcRuRhPdAgCdInSnSbTeIXeCsBaLaCePrNdPmSmEu
9393Se93Br93Kr93Rb93Sr93Y93Zr93Nb93Mo93Tc93Ru93Rh93Pd93Ag
9494Se94Br94Kr94Rb94Sr94Y94Zr94Nb94Mo94Tc94Ru94Rh94Pd94Ag
9595Br95Kr95Rb95Sr95Y95Zr95Nb95Mo95Tc95Ru95Rh95Pd95Ag95Cd
9696Br96Kr96Rb96Sr96Y96Zr96Nb96Mo96Tc96Ru96Rh96Pd96Ag96Cd
9797Br97Kr97Rb97Sr97Y97Zr97Nb97Mo97Tc97Ru97Rh97Pd97Ag97Cd97In
9898Br98Kr98Rb98Sr98Y98Zr98Nb98Mo98Tc98Ru98Rh98Pd98Ag98Cd98In
9999Kr99Rb99Sr99Y99Zr99Nb99Mo99Tc99Ru99Rh99Pd99Ag99Cd99In99Sn
100100Kr100Rb100Sr100Y100Zr100Nb100Mo100Tc100Ru100Rh100Pd100Ag100Cd100In100Sn
101101Kr101Rb101Sr101Y101Zr101Nb101Mo101Tc101Ru101Rh101Pd101Ag101Cd101In101Sn
102102Rb102Sr102Y102Zr102Nb102Mo102Tc102Ru102Rh102Pd102Ag102Cd102In102Sn
103103Sr103Y103Zr103Nb103Mo103Tc103Ru103Rh103Pd103Ag103Cd103In103Sn103Sb
104104Sr104Y104Zr104Nb104Mo104Tc104Ru104Rh104Pd104Ag104Cd104In104Sn104Sb
105105Sr105Y105Zr105Nb105Mo105Tc105Ru105Rh105Pd105Ag105Cd105In105Sn105Sb105Te
106106Sr106Y106Zr106Nb106Mo106Tc106Ru106Rh106Pd106Ag106Cd106In106Sn106Sb106Te
107107Sr107Y107Zr107Nb107Mo107Tc107Ru107Rh107Pd107Ag107Cd107In107Sn107Sb107Te
108108Y108Zr108Nb108Mo108Tc108Ru108Rh108Pd108Ag108Cd108In108Sn108Sb108Te108I
109109Y109Zr109Nb109Mo109Tc109Ru109Rh109Pd109Ag109Cd109In109Sn109Sb109Te109I109Xe
110110Zr110Nb110Mo110Tc110Ru110Rh110Pd110Ag110Cd110In110Sn110Sb110Te110I110Xe
111111Zr111Nb111Mo111Tc111Ru111Rh111Pd111Ag111Cd111In111Sn111Sb111Te111I111Xe
112112Zr112Nb112Mo112Tc112Ru112Rh112Pd112Ag112Cd112In112Sn112Sb112Te112I112Xe112Cs
113113Nb113Mo113Tc113Ru113Rh113Pd113Ag113Cd113In113Sn113Sb113Te113I113Xe113Cs
114114Nb114Mo114Tc114Ru114Rh114Pd114Ag114Cd114In114Sn114Sb114Te114I114Xe114Cs114Ba
115115Nb115Mo115Tc115Ru115Rh115Pd115Ag115Cd115In115Sn115Sb115Te115I115Xe115Cs115Ba
116116Mo116Tc116Ru116Rh116Pd116Ag116Cd116In116Sn116Sb116Te116I116Xe116Cs116Ba116La
117117Mo117Tc117Ru117Rh117Pd117Ag117Cd117In117Sn117Sb117Te117I117Xe117Cs117Ba117La
118118Tc118Ru118Rh118Pd118Ag118Cd118In118Sn118Sb118Te118I118Xe118Cs118Ba118La
119119Tc119Ru119Rh119Pd119Ag119Cd119In119Sn119Sb119Te119I119Xe119Cs119Ba119La119Ce
120120Tc120Ru120Rh120Pd120Ag120Cd120In120Sn120Sb120Te120I120Xe120Cs120Ba120La120Ce
121121Ru121Rh121Pd121Ag121Cd121In121Sn121Sb121Te121I121Xe121Cs121Ba121La121Ce121Pr
122122Ru122Rh122Pd122Ag122Cd122In122Sn122Sb122Te122I122Xe122Cs122Ba122La122Ce122Pr
123123Ru123Rh123Pd123Ag123Cd123In123Sn123Sb123Te123I123Xe123Cs123Ba123La123Ce123Pr
124124Ru124Rh124Pd124Ag124Cd124In124Sn124Sb124Te124I124Xe124Cs124Ba124La124Ce124Pr124Nd
125125Rh125Pd125Ag125Cd125In125Sn125Sb125Te125I125Xe125Cs125Ba125La125Ce125Pr125Nd
126126Rh126Pd126Ag126Cd126In126Sn126Sb126Te126I126Xe126Cs126Ba126La126Ce126Pr126Nd126Pm
127127Pd127Ag127Cd127In127Sn127Sb127Te127I127Xe127Cs127Ba127La127Ce127Pr127Nd127Pm
128128Pd128Ag128Cd128In128Sn128Sb128Te128I128Xe128Cs128Ba128La128Ce128Pr128Nd128Pm128Sm
129129Ag129Cd129In129Sn129Sb129Te129I129Xe129Cs129Ba129La129Ce129Pr129Nd129Pm129Sm
130130Ag130Cd130In130Sn130Sb130Te130I130Xe130Cs130Ba130La130Ce130Pr130Nd130Pm130Sm130Eu

 

Kernisotone Nuklide des Silbers

Die zu den Silber-Kernen isotonen Nuklide befinden sich in der jeweiligen Tabellenzeile; N = Anzahl der Neutronen.


4647484950515253545556575859606162636465666768697071727374757677787980818283
72Fe
73Co74Co75Co76Co
74Ni75Ni76Ni77Ni78Ni
75Cu76Cu77Cu78Cu79Cu80Cu81Cu82Cu
76Zn77Zn78Zn79Zn80Zn81Zn82Zn83Zn84Zn
77Ga78Ga79Ga80Ga81Ga82Ga83Ga84Ga85Ga86Ga87Ga
78Ge79Ge80Ge81Ge82Ge83Ge84Ge85Ge86Ge87Ge88Ge89Ge
79As80As81As82As83As84As85As86As87As88As89As90As91As92As
80Se81Se82Se83Se84Se85Se86Se87Se88Se89Se90Se91Se92Se93Se94Se
81Br82Br83Br84Br85Br86Br87Br88Br89Br90Br91Br92Br93Br94Br95Br96Br97Br98Br
82Kr83Kr84Kr85Kr86Kr87Kr88Kr89Kr90Kr91Kr92Kr93Kr94Kr95Kr96Kr97Kr98Kr99Kr100Kr101Kr
83Rb84Rb85Rb86Rb87Rb88Rb89Rb90Rb91Rb92Rb93Rb94Rb95Rb96Rb97Rb98Rb99Rb100Rb101Rb102Rb
84Sr85Sr86Sr87Sr88Sr89Sr90Sr91Sr92Sr93Sr94Sr95Sr96Sr97Sr98Sr99Sr100Sr101Sr102Sr103Sr104Sr105Sr106Sr107Sr
85Y86Y87Y88Y89Y90Y91Y92Y93Y94Y95Y96Y97Y98Y99Y100Y101Y102Y103Y104Y105Y106Y107Y108Y109Y
86Zr87Zr88Zr89Zr90Zr91Zr92Zr93Zr94Zr95Zr96Zr97Zr98Zr99Zr100Zr101Zr102Zr103Zr104Zr105Zr106Zr107Zr108Zr109Zr110Zr111Zr112Zr
87Nb88Nb89Nb90Nb91Nb92Nb93Nb94Nb95Nb96Nb97Nb98Nb99Nb100Nb101Nb102Nb103Nb104Nb105Nb106Nb107Nb108Nb109Nb110Nb111Nb112Nb113Nb114Nb115Nb
88Mo89Mo90Mo91Mo92Mo93Mo94Mo95Mo96Mo97Mo98Mo99Mo100Mo101Mo102Mo103Mo104Mo105Mo106Mo107Mo108Mo109Mo110Mo111Mo112Mo113Mo114Mo115Mo116Mo117Mo
89Tc90Tc91Tc92Tc93Tc94Tc95Tc96Tc97Tc98Tc99Tc100Tc101Tc102Tc103Tc104Tc105Tc106Tc107Tc108Tc109Tc110Tc111Tc112Tc113Tc114Tc115Tc116Tc117Tc118Tc119Tc120Tc
90Ru91Ru92Ru93Ru94Ru95Ru96Ru97Ru98Ru99Ru100Ru101Ru102Ru103Ru104Ru105Ru106Ru107Ru108Ru109Ru110Ru111Ru112Ru113Ru114Ru115Ru116Ru117Ru118Ru119Ru120Ru121Ru122Ru123Ru124Ru
91Rh92Rh93Rh94Rh95Rh96Rh97Rh98Rh99Rh100Rh101Rh102Rh103Rh104Rh105Rh106Rh107Rh108Rh109Rh110Rh111Rh112Rh113Rh114Rh115Rh116Rh117Rh118Rh119Rh120Rh121Rh122Rh123Rh124Rh125Rh126Rh
92Pd93Pd94Pd95Pd96Pd97Pd98Pd99Pd100Pd101Pd102Pd103Pd104Pd105Pd106Pd107Pd108Pd109Pd110Pd111Pd112Pd113Pd114Pd115Pd116Pd117Pd118Pd119Pd120Pd121Pd122Pd123Pd124Pd125Pd126Pd127Pd128Pd
93Ag94Ag95Ag96Ag97Ag98Ag99Ag100Ag101Ag102Ag103Ag104Ag105Ag106Ag107Ag108Ag109Ag110Ag111Ag112Ag113Ag114Ag115Ag116Ag117Ag118Ag119Ag120Ag121Ag122Ag123Ag124Ag125Ag126Ag127Ag128Ag129Ag130Ag
95Cd96Cd97Cd98Cd99Cd100Cd101Cd102Cd103Cd104Cd105Cd106Cd107Cd108Cd109Cd110Cd111Cd112Cd113Cd114Cd115Cd116Cd117Cd118Cd119Cd120Cd121Cd122Cd123Cd124Cd125Cd126Cd127Cd128Cd129Cd130Cd131Cd
97In98In99In100In101In102In103In104In105In106In107In108In109In110In111In112In113In114In115In116In117In118In119In120In121In122In123In124In125In126In127In128In129In130In131In132In
99Sn100Sn101Sn102Sn103Sn104Sn105Sn106Sn107Sn108Sn109Sn110Sn111Sn112Sn113Sn114Sn115Sn116Sn117Sn118Sn119Sn120Sn121Sn122Sn123Sn124Sn125Sn126Sn127Sn128Sn129Sn130Sn131Sn132Sn133Sn
103Sb104Sb105Sb106Sb107Sb108Sb109Sb110Sb111Sb112Sb113Sb114Sb115Sb116Sb117Sb118Sb119Sb120Sb121Sb122Sb123Sb124Sb125Sb126Sb127Sb128Sb129Sb130Sb131Sb132Sb133Sb134Sb
105Te106Te107Te108Te109Te110Te111Te112Te113Te114Te115Te116Te117Te118Te119Te120Te121Te122Te123Te124Te125Te126Te127Te128Te129Te130Te131Te132Te133Te134Te135Te
108I109I110I111I112I113I114I115I116I117I118I119I120I121I122I123I124I125I126I127I128I129I130I131I132I133I134I135I136I
109Xe110Xe111Xe112Xe113Xe114Xe115Xe116Xe117Xe118Xe119Xe120Xe121Xe122Xe123Xe124Xe125Xe126Xe127Xe128Xe129Xe130Xe131Xe132Xe133Xe134Xe135Xe136Xe137Xe
112Cs113Cs114Cs115Cs116Cs117Cs118Cs119Cs120Cs121Cs122Cs123Cs124Cs125Cs126Cs127Cs128Cs129Cs130Cs131Cs132Cs133Cs134Cs135Cs136Cs137Cs138Cs
114Ba115Ba116Ba117Ba118Ba119Ba120Ba121Ba122Ba123Ba124Ba125Ba126Ba127Ba128Ba129Ba130Ba131Ba132Ba133Ba134Ba135Ba136Ba137Ba138Ba139Ba
116La117La118La119La120La121La122La123La124La125La126La127La128La129La130La131La132La133La134La135La136La137La138La139La140La
119Ce120Ce121Ce122Ce123Ce124Ce125Ce126Ce127Ce128Ce129Ce130Ce131Ce132Ce133Ce134Ce135Ce136Ce137Ce138Ce139Ce140Ce141Ce
121Pr122Pr123Pr124Pr125Pr126Pr127Pr128Pr129Pr130Pr131Pr132Pr133Pr134Pr135Pr136Pr137Pr138Pr139Pr140Pr141Pr142Pr
124Nd125Nd126Nd127Nd128Nd129Nd130Nd131Nd132Nd133Nd134Nd135Nd136Nd137Nd138Nd139Nd140Nd141Nd142Nd143Nd
126Pm127Pm128Pm129Pm130Pm131Pm132Pm133Pm134Pm135Pm136Pm137Pm138Pm139Pm140Pm141Pm142Pm143Pm144Pm
128Sm129Sm130Sm131Sm132Sm133Sm134Sm135Sm136Sm137Sm138Sm139Sm140Sm141Sm142Sm143Sm144Sm145Sm
130Eu131Eu132Eu133Eu134Eu135Eu136Eu137Eu138Eu139Eu140Eu141Eu142Eu143Eu144Eu145Eu146Eu
134Gd135Gd136Gd137Gd138Gd139Gd140Gd141Gd142Gd143Gd144Gd145Gd146Gd147Gd
135Tb136Tb137Tb138Tb139Tb140Tb141Tb142Tb143Tb144Tb145Tb146Tb147Tb148Tb
138Dy139Dy140Dy141Dy142Dy143Dy144Dy145Dy146Dy147Dy148Dy149Dy
140Ho141Ho142Ho143Ho144Ho145Ho146Ho147Ho148Ho149Ho150Ho
143Er144Er145Er146Er147Er148Er149Er150Er151Er
144Tm145Tm146Tm147Tm148Tm149Tm150Tm151Tm152Tm
148Yb149Yb150Yb151Yb152Yb153Yb
150Lu151Lu152Lu153Lu154Lu
153Hf154Hf155Hf
155Ta156Ta

 

Literatur und Hinweise

Eigenschaften der Silber-Isotope

[1] - NuDat: National Nuclear Data Center, Brookhaven National Laboratory, based on ENSDF and the Nuclear Wallet Cards.

[2] - G. Audi et. al.: The NUBASE evaluation of nuclear and decay properties. Nuclear Physics, (2003), DOI 10.1016/j.nuclphysa.2003.11.001.

[3] - Live Chart of Nuclides. Nuclear structure and decay data.

Silber: Kernmagnetische Eigenschaften - 107Ag-NMR, 109Ag-NMR

[4] - N. J. Stone: Table of nuclear magnetic dipole and electric quadrupole moments. Atomic Data and Nuclear Data Tables, (2005), DOI 10.1016/j.adt.2005.04.001.

[5] - Pekka Pyykkö: Year-2008 nuclear quadrupole moments. Molecular Physics, (2008), DOI 10.1080/00268970802018367.

[6] - Pekka Pyykkö: Year-2017 nuclear quadrupole moments. Molecular Physics, (2018), DOI 10.1080/00268976.2018.1426131.

[7] - N. J. Stone: Table of recommended nuclear magnetic dipole moments. IAEA, (2019).

Weitere Quellen:

[8] - Isotopenhäufigkeiten, Atommassen und Isotopenmassen: Siehe unter dem jeweiligen Stichwort.

[9] - Yan Luo et al.:
Accurate and Precise Determination of Silver Isotope Fractionation in Environmental Samples by Multicollector-ICPMS.
In: Analytical Chemistry, (2010), DOI 10.1021/ac100532r.

 


Kategorie: Chemische Elemente

Letzte Änderung am 12.12.2022.


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