Properties of Po:

Property Name Value Unit Comments Reference
ΔH interface M in O (Miedema) 0 (kJmol-1) 13823
ΔH interface O in M (Miedema) 0 (kJmol-1) 13823
ΔH interface S in M 0 (kJmol-1) 13823
Δinterface M in S (Miedema) 0 (kJmol-1) 13823
γ-free electron to specific heat 0 (mJmol-1K-2) 13823
Atomic concentration 2,67 (1023 m-3) 13823
Atomic electron scattering factor at 0.5 3,34 13823
Atomic environment number (Villars, Daams) 6 13823
Atomic number start counting left top, left-right sequence 84 13823
Atomic weight 209 (10-3 kg) 13823
Boiling temperature 1235 (K) 13823
Bulk modulus 0 (GPa) 13823
Charge nuclear effective (Clementi) 14,22 13823
Chemical potential (Miedema) 0 13823
Compression modulus 0,26 (GPa) 13823
Conductivity electrical 0 (104 Ohm-1cm-1) 13823
Conductivity thermal 0 (Jmol-1K-1) 13823
Debye temperature 0 (K) 13823
Density 9320 (kgm-3) 13823
Density 9200 (kgm-3) 20518
Distance to core electron (Schubert) 1,3 (A) 13823
Distance to valence electron (Schubert) 2,11 (A) 13823
Electrochemical weight equivalent 0,36269 (mgK-1) 13823
Electron affinity 183 (kJmol-1) 13823
Electronegativity (Alfred-Rochow) 1,76 13823
Electronegativity (Martynov&Batsanov) 2,4 13823
Electronegativity (Pauling) 2 13823
Electronegativity absolute 5,16 13823
Energy cohesive (Brewer) 1,5 (Jmol-1) 13823
Energy of ionization (first) 818,2 (kJmol-1) 13823
Energy of ionization (second) 1834 (kJmol-1) 13823
Energy of ionization (third) 2668 (kJmol-1) 13823
Enthalpy of atomization 146 (kJmol-1) 13823
Enthalpy of melting 10 (kJmol-1) 13823
Enthalpy of surface (Miedema) 0 (kJmol-1) 13823
Enthalpy of vacancies (Miedema) 0 (kJmol-1) 13823
Enthalpy of vaporization 100,8 (kJmol-1) 13823
Entropy of solid 62,802 (Jmol-1K-1) 13823
Group number 6 13823
Hardness (Brinell) 0 [MPa] 13823
Linear thermal expansion coefficient 0 (10-6K-1) 13823
Magnetic frequency of nuclei 28 13823
Magnetic resonance 1 (MHz) 13823
Magnetic susceptibility 0 (m3kg-1) 13823
Mass attenuation coefficient FeKα 0 (cm2g-1) 13823
Mass attenuation coefficient for CrKα 0 (cm2g-1) 13823
Mass attenuation coefficient for CuKα 0 (cm2g-1) 13823
Mass attenuation coefficient for MoKα 120 (cm2g-1) 13823
Melting temperature 527 (K) 13823
Mendeleev chemists sequence 83 13823
Mendeleev d-t start left 88 13823
Mendeleev d-t start right 12 13823
Mendeleev H d-t start left 87 13823
Mendeleev H d-t start right 13 13823
Mendeleev H t-d start left 91 13823
Mendeleev H t-d start right 17 13823
Mendeleev Pettifor 91 13823
Mendeleev Pettifor regular 91 13823
Mendeleev t-d start left 92 13823
Mendeleev t-d start right 16 13823
Modulus of rigidity 0 (GPa) 13823
Molar heat capacity 25,75 (Jmol-1K-1) 13823
Moment nuclear magnetic 1 (mu) 13823
Nuclear charge effective (Slater) 6,95 13823
nWS^(1/3) (Miedema) 0 (a.u.-1/3) 13823
Oxidation state (first) -2 13823
Periodic number start counting bottom right, right-left sequence 20 13823
Periodic number start counting left bottom, left-right sequence 47 13823
Periodic number start counting top right, right-left sequence 57 13823
Poisson's ratio 0 13823
Quantum number 6 13823
Radii covalent 153 (pm) 13823
Radii metal (Waber) 1,76 (A) 13823
Radii pseudo-potential (Zunger) 1,9 13823
Resistivity electrical 140 (10-8 Ohmm) 13823
Sound velocity 0 (ms-1) 13823
Spectral lines no 2 13823
Spin nuclei 3 (h) 13823
Surface tension at Tm 0 (mJm-2) 13823
Thermal neutron capture cross section 0,5 (barns) 13823
V^(2/3) (Miedema) 0 (cm2) 13823
Valence electron number 6 13823
Vapour pressure at Tm 0,0176 (Nm-2) 13823
Volume of atom (Villars, Daams) 3,743 (10-2 nm3) 13823
Work function 4,8 (eV) 13823
Young's modulus 0 (GPa) 13823

Radii Ionic properties of Po:

Property Name Charge CN Value Unit Comments Reference
Radii ionic (Yagoda) 4 0,65 (Å) 13824
Radii ionic (Yagoda) 6 0,56 (Å) 13824
Radii ionic (Shannon) 4 6 0,94 (Å) 13826
Radii ionic (Shannon) 4 8 1,08 (Å) 13826
Radii ionic (Shannon) 6 6 0,67 (Å) 13826
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