Electrical resistivities of the elements (data page)

Elements with Low Electrical Resistivity
– Beryllium: 0.75nΩm, 30.2nΩm, 35.6nΩm, 37.0nΩm, 37.6nΩm
– Sodium: 8.0nΩm, 43.3nΩm, 47.7nΩm, 48.8nΩm, 49.3nΩm
– Aluminum: 2.45nΩm, 24.17nΩm, 26.50nΩm, 27.09nΩm, 27.33nΩm
– Copper: 2.15nΩm, 15.43nΩm, 16.78nΩm, 17.12nΩm, 17.25nΩm
– Silver: 1.59nΩm, 15.87nΩm, 17.15nΩm, 17.47nΩm, 17.59nΩm

Elements with Moderate Electrical Resistivity
– Carbon (diamond): 0.8 LNG (10 Ωm)
– Carbon (graphite): 1375 WEL (10 Ωm)
– Magnesium: 5.57nΩm, 40.5nΩm, 43.9nΩm, 44.8nΩm, 45.1nΩm
– Zinc: 11.5nΩm, 54.6nΩm, 59.0nΩm, 60.1nΩm, 60.6nΩm
– Nickel: 5.45nΩm, 61.6nΩm, 69.3nΩm, 71.2nΩm, 72.0nΩm

Elements with High Electrical Resistivity
– Gallium: CRC (10 Ωm) 13.6, LNG (10 Ωm) (30°C) 25.795, 33.3 WEL (10 Ωm) (293 K–298 K) 30
– Selenium: LNG (10 Ωm) (amorphous) 1.2 [sic], WEL (10 Ωm) (293 K–298 K) high
– Rubidium: 26.5nΩm, 115nΩm, 128nΩm, 131nΩm, 133nΩm
– Strontium: 36.4nΩm, 123nΩm, 132nΩm, 134nΩm, 135nΩm
– Yttrium: (room temperature) (alpha, polycrystalline) 596nΩm, CRC (10 Ωm) (290 K–300 K) 59.6

Elements with Varying Electrical Resistivity
– Boron: LNG (10 Ωm) 1.5×10, WEL (10 Ωm) (293 K–298 K) 10
– Titanium: 0.39µΩm, 0.420µΩm, LNG (10 Ωm) 42.0, WEL (10 Ωm) (293 K–298 K) 40
– Vanadium: 24.1nΩm, 181nΩm, 197nΩm, 201nΩm, 202nΩm
– Chromium: 118nΩm, 125nΩm, 126nΩm, 127nΩm, 201nΩm
– Manganese: 1.32µΩm, 1.43µΩm, 1.44µΩm, 1.44µΩm, 1.44µΩm

Elements with Unique Electrical Resistivity
– Scandium: (room temperature) (alpha, polycrystalline) calculated 562nΩm, CRC (10 Ωm) (290 K–300 K) 56.2
– Bromine: LNG (10 Ωm) 7.8×10, WEL (10 Ωm) (293 K–
– Technetium (Tc): 22.6nΩm, 20nΩm
– Tellurium (Te): (5.8–33)×10³nΩm, about 10000nΩm
– Iodine (I): 1.3×10nΩm, 1.3×10nΩm, 10nΩm
– Cesium (Cs): 41.6nΩm, 187nΩm, 205nΩm, 208nΩm, 210nΩm

Note: The content could be further organized based on the type of element, such as metals, transition metals, rare earth elements, non-metals, and alloys. Source:  https://en.wikipedia.org/wiki/Electrical_resistivities_of_the_elements_(data_page)