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Electrical resistivities of the elements (data page)

Chemical data page

Chemical data page

Main article: Electrical resistivity

Electrical resistivity

3 Li lithium4 Be beryllium5 B boron6 C carbon (diamond)6 C carbon (graphite)11 Na sodium12 Mg magnesium13 Al aluminium14 Si silicon15 P phosphorus16 S sulfur17 Cl chlorine19 K potassium20 Ca calcium21 Sc scandium22 Ti titanium23 V vanadium24 Cr chromium25 Mn manganese26 Fe iron27 Co cobalt28 Ni nickel29 Cu copper30 Zn zinc31 Ga gallium32 Ge germanium33 As arsenic34 Se selenium35 Br bromine37 Rb rubidium38 Sr strontium39 Y yttrium40 Zr zirconium41 Nb niobium42 Mo molybdenum43 Tc technetium44 Ru ruthenium45 Rh rhodium46 Pd palladium47 Ag silver48 Cd cadmium49 In indium50 Sn tin51 Sb antimony52 Te tellurium53 I iodine55 Cs caesium56 Ba barium57 La lanthanum58 Ce cerium (beta, hex)58 Ce cerium (gamma, cubic)59 Pr praseodymium60 Nd neodymium61 Pm promethium62 Sm samarium63 Eu europium64 Gd gadolinium65 Tb terbium66 Dy dysprosium67 Ho holmium68 Er erbium69 Tm thulium70 Yb ytterbium71 Lu lutetium72 Hf hafnium73 Ta tantalum74 W tungsten75 Re rhenium76 Os osmium77 Ir iridium78 Pt platinum79 Au gold80 Hg mercury81 Tl thallium82 Pb lead83 Bi bismuth84 Po polonium88 Ra radium90 Th thorium91 Pa protactinium92 U uranium93 Np neptunium94 Pu plutonium95 Am americium96 Cm curium
use10.0 nΩm85.3 nΩm92.8 nΩm94.7 nΩm95.5 nΩm
CRC (10−8 Ωm)1.008.539.289.479.55
LNG (10−8 Ωm)9.28
WEL (10−8 Ωm)(293 K–298 K) 9.4
use0.75 nΩm30.2 nΩm35.6 nΩm37.0 nΩm37.6 nΩm99 nΩm
CRC (10−8 Ωm)0.0753.023.563.703.769.9
LNG (10−8 Ωm)3.56
WEL (10−8 Ωm)(293 K–298 K) 4
use1.5×104 Ωm
LNG (10−8 Ωm)1.5×1012
WEL (10−8 Ωm)(293 K–298 K) 1012
use
LNG (10−8 Ωm)0.8 [sic]
use
LNG (10−8 Ωm)1375
WEL (10−8 Ωm)(293 K–298 K) about 1000 – direction dependent
use8.0 nΩm43.3 nΩm47.7 nΩm48.8 nΩm49.3 nΩm
CRC (10−8 Ωm)0.804.334.774.884.93
LNG (10−8 Ωm)4.77
WEL (10−8 Ωm)(293 K–298 K) 4.7
use5.57 nΩm40.5 nΩm43.9 nΩm44.8 nΩm45.1 nΩm78.6 nΩm
CRC (10−8 Ωm)0.5574.054.394.484.517.86
LNG (10−8 Ωm)4.39
WEL (10−8 Ωm)(293 K–298 K) 4.4
use2.45 nΩm24.17 nΩm26.50 nΩm27.09 nΩm27.33 nΩm49.9 nΩm
CRC (10−8 Ωm)0.2452.4172.6502.7092.7334.99
LNG (10−8 Ωm)2.6548
WEL (10−8 Ωm)(293 K–298 K) 2.65
use
LNG (10−8 Ωm)105
WEL (10−8 Ωm)(293 K–298 K) about 100000
use
LNG (10−8 Ωm)(white) 10 [sic]
WEL (10−8 Ωm)(293 K–298 K) 10
use(amorphous) 2×1015 Ωm
LNG (10−8 Ωm)(amorphous) 2×1023
WEL (10−8 Ωm)(293 K–298 K) 1023
use10 Ωm
LNG (10−8 Ωm)109
WEL (10−8 Ωm)(293 K–298 K) 1010
use13.4 nΩm64.9 nΩm72.0 nΩm73.9 nΩm74.7 nΩm
CRC (10−8 Ωm)1.346.497.207.397.47
LNG (10−8 Ωm)7.2
WEL (10−8 Ωm)(293 K–298 K) 7
use6.5 nΩm31.1 nΩm33.6 nΩm34.2 nΩm34.5 nΩm60. nΩm
CRC (10−8 Ωm)0.653.113.363.423.456.0
LNG (10−8 Ωm)3.36
WEL (10−8 Ωm)(293 K–298 K) 3.4
use(room temperature) (alpha, polycrystalline) calculated 562 nΩm
CRC (10−8 Ωm)(290 K–300 K) 56.2
CR2 (10−8 Ωm)(room temperature) (alpha, amorphous) 70.9
CR2 (10−8 Ωm)(room temperature) (alpha, crystalline) 26.9
CR2 (10−8 Ωm)(room temperature) (alpha, polycrystalline) calculated from single crystal values 56.2
LNG (10−8 Ωm)56.2
WEL (10−8 Ωm)(293 K–298 K) 55
use0.39 μΩm0.420 μΩm
CRC (10−8 Ωm)39
LNG (10−8 Ωm)42.0
WEL (10−8 Ωm)(293 K–298 K) 40
use24.1 nΩm181 nΩm197 nΩm201 nΩm202 nΩm348 nΩm
CRC (10−8 Ωm)2.4118.119.720.120.234.8
LNG (10−8 Ωm)19.7
WEL (10−8 Ωm)(293 K–298 K) 20
use118 nΩm125 nΩm126 nΩm127 nΩm201 nΩm
CRC (10−8 Ωm)11.812.512.612.720.1
LNG (10−8 Ωm)12.5
WEL (10−8 Ωm)(293 K–298 K) 12.7
use1.32 μΩm1.43 μΩm1.44 μΩm1.44 μΩm1.44 μΩm1.49 μΩm
CRC (10−8 Ωm)132143144144144149
LNG (10−8 Ωm)144
WEL (10−8 Ωm)(293 K–298 K) 160
use6.93 nΩm85.7 nΩm96.1 nΩm98.7 nΩm99.8 nΩm237 nΩm
CRC (10−8 Ωm)0.6938.579.619.879.9823.7
LNG (10−8 Ωm)9.61
WEL (10−8 Ωm)(293 K–298 K) 9.7
use56 nΩm62.4 nΩm
CRC (10−8 Ωm)5.6
LNG (10−8 Ωm)6.24
WEL (10−8 Ωm)(293 K–298 K) 6
use5.45 nΩm61.6 nΩm69.3 nΩm71.2 nΩm72.0 nΩm177 nΩm
CRC (10−8 Ωm)0.5456.166.937.127.2017.7
LNG (10−8 Ωm)6.93
WEL (10−8 Ωm)(293 K–298 K) 7
use2.15 nΩm15.43 nΩm16.78 nΩm17.12 nΩm17.25 nΩm30.90 nΩm
CRC (10−8 Ωm)0.2151.5431.6781.7121.7253.090
LNG (10−8 Ωm)1.678
WEL (10−8 Ωm)(293 K–298 K) 1.7
use11.5 nΩm54.6 nΩm59.0 nΩm60.1 nΩm60.6 nΩm108.2 nΩm
CRC (10−8 Ωm)1.155.465.906.016.0610.82
LNG (10−8 Ωm)5.9
WEL (10−8 Ωm)(293 K–298 K) 5.9
use
CRC (10−8 Ωm)13.6
LNG (10−8 Ωm)(30 °C) 25.795
WEL (10−8 Ωm)(293 K–298 K) 14
use
LNG (10−8 Ωm)53000
WEL (10−8 Ωm)(293 K–298 K) about 50000
use333 nΩm
LNG (10−8 Ωm)33.3
WEL (10−8 Ωm)(293 K–298 K) 30
use
LNG (10−8 Ωm)(amorphous) 1.2 [sic]
WEL (10−8 Ωm)(293 K–298 K) high
use7.8×1010 Ωm
LNG (10−8 Ωm)7.8×1018
WEL (10−8 Ωm)(293 K–298 K) 1018
use26.5 nΩm115 nΩm128 nΩm131 nΩm133 nΩm
CRC (10−8 Ωm)2.6511.512.813.113.3
LNG (10−8 Ωm)12.8
WEL (10−8 Ωm)(293 K–298 K) 12
use36.4 nΩm123 nΩm132 nΩm134 nΩm135 nΩm222 nΩm
CRC (10−8 Ωm)3.6412.313.213.413.522.2
LNG (10−8 Ωm)13.2
WEL (10−8 Ωm)(293 K–298 K) 13
use(room temperature) (alpha, polycrystalline) 596 nΩm
CRC (10−8 Ωm)(290 K–300 K) 59.6
CR2 (10−8 Ωm)(room temperature) (alpha, amorphous) 72.5
CR2 (10−8 Ωm)(room temperature) (alpha, crystalline) 35.5
CR2 (10−8 Ωm)(room temperature) (alpha, polycrystalline) 59.6
LNG (10−8 Ωm)59.6
WEL (10−8 Ωm)(293 K–298 K) 56
use66.4 nΩm388 nΩm421 nΩm429 nΩm433 nΩm765 nΩm
CRC (10−8 Ωm)6.6438.842.142.943.376.5
LNG (10−8 Ωm)42.1
WEL (10−8 Ωm)(293 K–298 K) 42
use152 nΩm
CRC (10−8 Ωm)15.2
LNG (10−8 Ωm)15.2
WEL (10−8 Ωm)(293 K–298 K) 15
use4.82 nΩm48.5 nΩm53.4 nΩm54.7 nΩm55.2 nΩm106 nΩm
CRC (10−8 Ωm)0.4824.855.345.475.5210.6
LNG (10−8 Ωm)5.34
WEL (10−8 Ωm)(293 K–298 K) 5
use
LNG (10−8 Ωm)(100 °C) 22.6
WEL (10−8 Ωm)(293 K–298 K) 20
use71 nΩm
CRC (10−8 Ωm)7.1
LNG (10−8 Ωm)7.1
WEL (10−8 Ωm)(293 K–298 K) 7.1
use43.3 nΩm
CRC (10−8 Ωm)4.3
LNG (10−8 Ωm)4.33
WEL (10−8 Ωm)(293 K–298 K) 4.3
use17.5 nΩm97.8 nΩm105.4 nΩm107.3 nΩm108.0 nΩm179.4 nΩm
CRC (10−8 Ωm)1.759.7810.5410.7310.8017.94
LNG (10−8 Ωm)10.54
WEL (10−8 Ωm)(293 K–298 K) 10
use2.89 nΩm14.67 nΩm15.87 nΩm16.17 nΩm16.29 nΩm28.7 nΩm
CRC (10−8 Ωm)0.2891.4671.5871.6171.6292.87
LNG (10−8 Ωm)1.587
WEL (10−8 Ωm)(293 K–298 K) 1.6
use68 nΩm
use(22 °C) 72.7 nΩm
CRC (10−8 Ωm)6.8
LNG (10−8 Ωm)(22 °C) 7.27
WEL (10−8 Ωm)(293 K–298 K) 7
use0.080 μΩm83.7 nΩm
CRC (10−8 Ωm)8.0
LNG (10−8 Ωm)8.37
WEL (10−8 Ωm)(293 K–298 K) 8
use115 nΩm
CRC (10−8 Ωm)11.5
LNG (10−8 Ωm)11.5
WEL (10−8 Ωm)(293 K–298 K) 11
use0.39 μΩm417 nΩm
CRC (10−8 Ωm)39
LNG (10−8 Ωm)41.7
WEL (10−8 Ωm)(293 K–298 K) 40
use
LNG (10−8 Ωm)(5.8–33)×10³
WEL (10−8 Ωm)(293 K–298 K) about 10000
use1.3×107 Ωm
LNG (10−8 Ωm)1.3×1015
WEL (10−8 Ωm)(293 K–298 K) 1015
use41.6 nΩm187 nΩm205 nΩm208 nΩm210 nΩm
CRC (10−8 Ωm)4.1618.720.520.821.0
LNG (10−8 Ωm)20.5
WEL (10−8 Ωm)(293 K–298 K) 20
use68.3 nΩm302 nΩm332 nΩm0.340 μΩm343 nΩm724 nΩm
CRC (10−8 Ωm)6.8330.233.234.034.372.4
LNG (10−8 Ωm)33.2
WEL (10−8 Ωm)(293 K–298 K) 35
use(room temperature) (alpha, polycrystalline) 615 nΩm
CRC (10−8 Ωm)(290 K–300 K) 61.5
CR2 (10−8 Ωm)(room temperature) (alpha, polycrystalline) 61.5
LNG (10−8 Ωm)61.5
WEL (10−8 Ωm)(293 K–298 K) 61
use(room temperature) (beta, polycrystalline) 828 nΩm
CRC (10−8 Ωm)(beta, hex) (290 K–300 K) 82.8
CR2 (10−8 Ωm)(room temperature) (beta, polycrystalline) 82.8
LNG (10−8 Ωm)(beta, hex) 82.8
use(room temperature) (gamma, polycrystalline) 744 nΩm
CRC (10−8 Ωm)74.4
CR2 (10−8 Ωm)(room temperature) (gamma, polycrystalline) 74.4
WEL (10−8 Ωm)(293 K–298 K) 74
use(room temperature) (alpha, polycrystalline) 0.700 μΩm
CRC (10−8 Ωm)(290 K–300 K) 70.0
CR2 (10−8 Ωm)(room temperature) (alpha, polycrystalline) 70.0
LNG (10−8 Ωm)70.0
WEL (10−8 Ωm)(293 K–298 K) 70
use(room temperature) (alpha, polycrystalline) 643 nΩm
CRC (10−8 Ωm)(290 K–300 K) 64.3
CR2 (10−8 Ωm)(room temperature) (alpha, polycrystalline) 64.3
LNG (10−8 Ωm)64.3
WEL (10−8 Ωm)(293 K–298 K) 64
use(room temperature) estimated 0.75 μΩm
CRC (10−8 Ωm)(290 K–300 K) 75 est.
CR2 (10−8 Ωm)(room temperature) (alpha, polycrystalline) 75 estimated
LNG (10−8 Ωm)64.0
WEL (10−8 Ωm)(293 K–298 K) 75
use(room temperature) (alpha, polycrystalline) 0.940 μΩm
CRC (10−8 Ωm)(290 K–300 K) 94.0
CR2 (10−8 Ωm)(room temperature) (alpha, polycrystalline) 94.0
LNG (10−8 Ωm)94.0
WEL (10−8 Ωm)(293 K–298 K) 94
use(room temperature) (polycrystalline) 0.900 μΩm
CRC (10−8 Ωm)(290 K–300 K) 90.0
CR2 (10−8 Ωm)(room temperature) (polycrystalline) 90.0
LNG (10−8 Ωm)90.0
WEL (10−8 Ωm)(293 K–298 K) 90
use(room temperature) (alpha, polycrystalline) 1.310 μΩm
CRC (10−8 Ωm)(290 K–300 K) 131
CR2 (10−8 Ωm)(room temperature) (alpha, amorphous) 135.1
CR2 (10−8 Ωm)(room temperature) (alpha, crystalline) 121.7
CR2 (10−8 Ωm)(room temperature) (alpha, polycrystalline) 131.0
LNG (10−8 Ωm)131
WEL (10−8 Ωm)(293 K–298 K) 130
use(room temperature) (alpha, polycrystalline) 1.150 μΩm
CRC (10−8 Ωm)(290 K–300 K) 115
CR2 (10−8 Ωm)(room temperature) (alpha, amorphous) 123.5
CR2 (10−8 Ωm)(room temperature) (alpha, crystalline) 101.5
CR2 (10−8 Ωm)(room temperature) (alpha, polycrystalline) 115.0
LNG (10−8 Ωm)115
WEL (10−8 Ωm)(293 K–298 K) 120
use(room temperature) (alpha, polycrystalline) 926 nΩm
CRC (10−8 Ωm)(290 K–300 K) 92.6
CR2 (10−8 Ωm)(room temperature) (alpha, amorphous) 111.0
CR2 (10−8 Ωm)(room temperature) (alpha, crystalline) 76.6
CR2 (10−8 Ωm)(room temperature) (alpha, polycrystalline) 92.6
LNG (10−8 Ωm)92.6
WEL (10−8 Ωm)(293 K–298 K) 91
use(room temperature) (polycrystalline) 814 nΩm
CRC (10−8 Ωm)(290 K–300 K) 81.4
CR2 (10−8 Ωm)(room temperature) (amorphous) 101.5
CR2 (10−8 Ωm)(room temperature) (crystalline) 60.5
CR2 (10−8 Ωm)(room temperature) (polycrystalline) 81.4
LNG (10−8 Ωm)81.4
WEL (10−8 Ωm)(293 K–298 K) 94
use(room temperature) (polycrystalline) 0.860 μΩm
CRC (10−8 Ωm)(290 K–300 K) 86.0
CR2 (10−8 Ωm)(room temperature) (amorphous) 94.5
CR2 (10−8 Ωm)(room temperature) (crystalline) 60.3
CR2 (10−8 Ωm)(room temperature) (polycrystalline) 86.0
LNG (10−8 Ωm)86.0
WEL (10−8 Ωm)(293 K–298 K) 86
use(room temperature) (polycrystalline) 676 nΩm
CRC (10−8 Ωm)(290 K–300 K) 67.6
CR2 (10−8 Ωm)(room temperature) (amorphous) 88.0
CR2 (10−8 Ωm)(room temperature) (crystalline) 47.2
CR2 (10−8 Ωm)(room temperature) (polycrystalline) 67.6
LNG (10−8 Ωm)67.6
WEL (10−8 Ωm)(293 K–298 K) 70
use(room temperature) (beta, polycrystalline) 0.250 μΩm
CRC (10−8 Ωm)(290 K–300 K) 25.0
CR2 (10−8 Ωm)(room temperature) (beta, polycrystalline) 25.0
LNG (10−8 Ωm)25
WEL (10−8 Ωm)(293 K–298 K) 28
use(room temperature) (polycrystalline) 582 nΩm
CRC (10−8 Ωm)(290 K–300 K) 58.2
CR2 (10−8 Ωm)(room temperature) (amorphous) 76.6
CR2 (10−8 Ωm)(room temperature) (crystalline) 34.7
CR2 (10−8 Ωm)(room temperature) (polycrystalline) 58.2
LNG (10−8 Ωm)58.2
WEL (10−8 Ωm)(293 K–298 K) 56
use67.5 nΩm304 nΩm331 nΩm337 nΩm0.340 μΩm631 nΩm
CRC (10−8 Ωm)6.7530.433.133.734.063.1
LNG (10−8 Ωm)33.1
WEL (10−8 Ωm)(293 K–298 K) 30
use26.2 nΩm122 nΩm131 nΩm134 nΩm135 nΩm229 nΩm
CRC (10−8 Ωm)2.6212.213.113.413.522.9
LNG (10−8 Ωm)13.5
WEL (10−8 Ωm)(293 K–298 K) 13
use6.06 nΩm48.2 nΩm52.8 nΩm53.9 nΩm54.4 nΩm103 nΩm
CRC (10−8 Ωm)0.6064.825.285.395.4410.3
LNG (10−8 Ωm)5.28
WEL (10−8 Ωm)(293 K–298 K) 5
use172 nΩm193 nΩm
CRC (10−8 Ωm)17.2
LNG (10−8 Ωm)19.3
WEL (10−8 Ωm)(293 K–298 K) 18
use81.2 nΩm
CRC (10−8 Ωm)8.1
LNG (10−8 Ωm)8.12
WEL (10−8 Ωm)(293 K–298 K) 8.1
use47 nΩm47.1 nΩm
CRC (10−8 Ωm)4.7
LNG (10−8 Ωm)4.71
WEL (10−8 Ωm)(293 K–298 K) 4.7
use19.22 nΩm96 nΩm105 nΩm107 nΩm108 nΩm183 nΩm
CRC (10−8 Ωm)1.9229.610.510.710.818.3
LNG (10−8 Ωm)10.6
WEL (10−8 Ωm)(293 K–298 K) 10.6
use4.81 nΩm20.51 nΩm22.14 nΩm22.55 nΩm22.71 nΩm39.7 nΩm
CRC (10−8 Ωm)0.4812.0512.2142.2552.2713.97
LNG (10−8 Ωm)2.214
WEL (10−8 Ωm)(293 K–298 K) 2.2
use961 nΩm
CRC (10−8 Ωm)96.1
LNG (10−8 Ωm)(solid) 21
LNG (10−8 Ωm)(liquid) 95.8
WEL (10−8 Ωm)(293 K–298 K) 96
use0.15 μΩm0.18 μΩm
CRC (10−8 Ωm)15
LNG (10−8 Ωm)18
WEL (10−8 Ωm)(293 K–298 K) 15
use49 nΩm192 nΩm208 nΩm211 nΩm213 nΩm383 nΩm
CRC (10−8 Ωm)4.919.220.821.121.338.3
LNG (10−8 Ωm)20.8
WEL (10−8 Ωm)(293 K–298 K) 21
use1.07 μΩm1.29 μΩm
CRC (10−8 Ωm)107
LNG (10−8 Ωm)129
WEL (10−8 Ωm)(293 K–298 K) 130
use(alpha) 0.40 μΩm
CRC (10−8 Ωm)40
LNG (10−8 Ωm)(alpha) 40.0
WEL (10−8 Ωm)(293 K–298 K) 43
use1 μΩm
LNG (10−8 Ωm)100
WEL (10−8 Ωm)(293 K–298 K) 100
use147 nΩm
use(22 °C) 15.4
CRC (10−8 Ωm)14.7
LNG (10−8 Ωm)(22 °C) 15.4
WEL (10−8 Ωm)(293 K–298 K) 15
use177 nΩm
use(22 °C) 19.1
CRC (10−8 Ωm)17.7
LNG (10−8 Ωm)(22 °C) 19.1
WEL (10−8 Ωm)(293 K–298 K) 18
use0.280 μΩm
CRC (10−8 Ωm)28
LNG (10−8 Ωm)28.0
WEL (10−8 Ωm)(293 K–298 K) 28
use(22 °C) 1.220 μΩm
LNG (10−8 Ωm)(22 °C) 122.0
WEL (10−8 Ωm)(293 K–298 K) 120
use1.460 μΩm
LNG (10−8 Ωm)146.0
WEL (10−8 Ωm)(293 K–298 K) 150
use(room temperature) 689 nΩm
use(room temperature) 1250 nΩm
T80 K (−193 °C)273 K (0 °C)293 K (20 °C)298 K (25 °C)300 K (27 °C)500 K (227 °C)

References

WEL

As quoted at http://www.webelements.com/ from these sources:

  • G.W.C. Kaye and T. H. Laby in Tables of physical and chemical constants, Longman, London, UK, 15th edition, 1993.
  • A.M. James and M.P. Lord in Macmillan's Chemical and Physical Data, Macmillan, London, UK, 1992.
  • D.R. Lide, (ed.) in Chemical Rubber Company handbook of chemistry and physics, CRC Press, Boca Raton, Florida, USA, 79th edition, 1998.
  • J.A. Dean (ed) in Lange's Handbook of Chemistry, McGraw-Hill, New York, USA, 14th edition, 1992.

CRC

As quoted from various sources in an online version of:

  • David R. Lide (ed), CRC Handbook of Chemistry and Physics, 84th Edition. CRC Press. Boca Raton, Florida, 2003; Section 12, Properties of Solids; Electrical Resistivity of Pure Metals

CR2

As quoted in an online version of:

  • David R. Lide (ed), CRC Handbook of Chemistry and Physics, 84th Edition. CRC Press. Boca Raton, Florida, 2003; Section 4, Properties of the Elements and Inorganic Compounds; Physical Properties of the Rare Earth Metals which further refers to:
  • Beaudry, B. J. and Gschneidner, K.A., Jr., in Handbook on the Physics and Chemistry of Rare Earths, Vol. 1, Gschneidner, K.A., Jr. and Eyring, L., Eds., North-Holland Physics, Amsterdam, 1978, 173.
  • McEwen, K.A., in Handbook on the Physics and Chemistry of Rare Earths, Vol. 1, Gschneidner, K.A., Jr. and Eyring, L., Eds., North-Holland Physics, Amsterdam, 1978, 411.

LNG

As quoted from:

  • J.A. Dean (ed), Lange's Handbook of Chemistry (15th Edition), McGraw-Hill, 1999; Section 4, Table 4.1 Electronic Configuration and Properties of the Elements

References

  1. (1977). "The electrical resistivity of 241Am metal". Journal of Physics and Chemistry of Solids.
  2. Schenkel, R.. (1977). "The electrical resistivity of 244Cm metal". Solid State Communications.
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