Symbol Bz
Atomic number 129
Pronunciation /'bər•zel•ē•(y)üm/
Named after Jöns Jacob Berzelius
Name in Saurian Rohqocaim (Rq)
Systematic name Unbiennium (Ube)
Location on the periodic table
Period 8
Family Berzelium family
Series Lavoiside series
Coordinate 5g9
Element left of Berzelium Boylium
Element right of Berzelium Franklinium
Atomic properties
Subatomic particles 477
Atomic mass 350.9070 u, 582.6948 yg
Atomic radius 166 pm, 1.66 Å
Covalent radius 178 pm, 1.78 Å
van der Waals radius 194 pm, 1.94 Å
Nuclear properties
Nucleons 348 (129 p+, 219 no)
Nuclear ratio 1.70
Nuclear radius 8.41 fm
Half-life 150.24 ky
Decay mode Alpha decay
Decay product 344Pk
Electronic properties
Electron notation 129-8-24
Electron configuration [Og] 5g4 6f3 7d1 8s2 8p1
Electrons per shell 2, 8, 18, 32, 36, 21, 9, 3
Oxidation states +3, +5, +6, +7, +8, +9
(a strongly basic oxide)
Electronegativity 1.23
First ionization energy 546.9 kJ/mol, 5.668 eV
Electron affinity 41.6 kJ/mol, 0.431 eV
Physical properties
Bulk properties
Molar mass 350.907 g/mol
Molar volume 48.232 cm3/mol
Density 7.275 g/cm3
Atomic number density 1.72 × 1021 g−1
1.25 × 1022 cm−3
Average atomic separation 431 pm, 4.31 Å
Speed of sound 1414 m/s
Magnetic ordering Paramagnetic
Crystal structure Base-centered orthorhombic
Color Purplish gray
Phase Liquid
Thermal properties
Melting point 281.16 K, 506.09°R
8.01°C, 46.42°F
Boiling point 1134.88 K, 2042.78°R
861.73°C, 1583.11°F
Liquid range 853.72 K, 1536.70°R
Liquid ratio 4.04
Triple point 281.16 K, 506.09°R
8.01°C, 46.42°F
@ 677.59 fPa, 5.0824 × 10−15 torr
Critical point 1919.28 K, 3454.71°R
1646.13°C, 2995.04°F
@ 16.1041 MPa, 158.935 atm
Heat of fusion 4.535 kJ/mol
Heat of vaporization 116.868 kJ/mol
Heat capacity 0.07107 J/(g•K), 0.12793 J/(g•°R)
24.939 J/(mol•K), 44.890 J/(mol•°R)
Abundance in the universe
By mass Relative: 2.57 × 10−25
Absolute: 8.61 × 1027 kg
By atom 1.92 × 10−26

Berzelium is the provisional non-systematic name of an undiscovered element with the symbol Bz and atomic number 129. Berzelium was named in honor of Jöns Jacob Berzelius (1779–1848), who worked out the modern technique of chemical notation, such as H2O, and discovered several elements, including silicon and thorium. This element is known in the scientific literature as unbiennium (Ube) or simply element 129. Berzelium is the ninth element of the lavoiside series and located in the periodic table coordinate 5g9.

Atomic properties Edit

Berzelium contains 129 protons, hence its atomic number, and 219 neutrons that make up the nucleus, corresponding to its nuclear ratio of 1.70. In total, there are 348 nucleons, corresponding to its mass number. There are four electrons filling in the 5g orbital as this is a g-block element, but the number is way short of what the periodic table expects because of the spin-orbit coupling due to relativistic effects. According to the Madelung rule, there should be nine electrons in the g-orbital. The five missing electrons are found in the shells beyond the g-orbital, three in the 6f orbital, one in the 7d orbital, and one in the 8p orbital.

Isotopes Edit

Like every other element heavier than lead, berzelium has no stable isotopes. The longest-lived isotope is 348Bz with a half-life of 150 years, alpha decaying to 344Pk. Another isotope, 351Bz, has a half-life of 108 years and undergoing cluster decay, emitting 12C nuclei, 8Be nuclei, and 30 neutrons to produce 311Nw as the shedded remain of 351Bz.

Berzelium has a number of metastable isomers. The longest-lived metastate is 349m1Bz with a half-life of 47 minutes.

Chemical properties and compounds Edit

Berzelium commonly forms Bz7+ and Bz9+ by donating seven or nine electrons due to low binding energies of electrons. Also due to its relatively low ionization energy and electronegativity, it is reactive. Berzelium loses purplish hue when it is exposed to air as oxide coating forms. Berzelium powder dissolves in water and acids to form a base and neutral salt respectively.

There are several compounds of berzelium. Berzelium(IX) sulfide (Bz2S9) is a yellow crystalline solid. Berzelium(IX) fluoride (BzF9) is a colorless gas that condenses at 443°R (−17°F) to a pale blue liquid. Berzelium(VII) carbonate (Bz2(CO3)7) is a yellow liquid with the boiling point of 545°R (85°F) and freezes at 379°R (−80°F). Berzelium(IX) nitride (BzN3 or Bz2N6) is a black powdery solid. Other compounds include BzCl7, Bz2O9, BzO3, BzN3, and BzI5.

Physical properties Edit

Berzelium is a purplish gray metal with the melting point low enough to be a liquid at room temperature (537°R, 77°F). It freezes to a purplish gray amorphous solid at 506°R (46°F) and it boils at 2043°R (1583°F). This liquid would be lot less volatile than mercury due to its lower vapor pressure. Berzelium has the highest liquid ratio (4.04) of any g-block element.

Its density is 7.3 g/cm3, almost identical to the density of tin, and its molar volume 48.2 cm3/mol. Multiplying density by its molar volume yields the molar mass 350.9 g/mol. The sound travel through berzelium at 1414 m/s.

Occurrence Edit

It is certain that berzelium is virtually nonexistent on Earth, and is believe to barely exist somewhere in the universe. Every element heavier than iron can only naturally be produced by exploding stars. But it is virtually impossible for even the most powerful supernovae or most violent neutron star collisions to produce this element through r-process because there's not enough energy available or not enough neutrons, respectively, to produce this hyperheavy element. . Instead, this element can only be produced by advanced technological civilizations, virtually accounting for all of its abundance in the universe. An estimated abundance of berzelium in the universe by mass is 2.57 × 10−25, which amounts to 8.62 × 1027 kilograms or about the mass of Lerna (2M1207b) worth of berzelium.

Synthesis Edit

To synthesize most stable isotopes of berzelium, nuclei of a couple lighter elements must be fused together, and right amount of neutrons must be seeded. This operation would be impossible using current technology since it requires a tremendous amount of energy, thus its cross section would be so low that it is beyond the technological limit. Here's couple of example equations in the synthesis of the most stable isotope, 348Bz.

Ir + 130
Te + 25 1
n → 348
Cf + 69
Ga + 28 1
n → 348

Imaginative applications Edit

Because metal is liquid at ordinary conditions, berzelium amalgams can be created when we dissolve solid metals in it, just like mercury. One interesting example is mercury-berzelium amalgam, which can be used to make thermometers. Due to its radioactivity with a 150-year half-life, liquid berzelium can be useful in glow sticks that last few hundred years. For comparison, conventional glow sticks only last few days. If enough berzelium is synthesized, it may well replace chemical solution glow sticks with radioactive liquid glow sticks.

1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
1 H He
2 Li Be B C N O F Ne
3 Na Mg Al Si P S Cl Ar
4 K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br Kr
5 Rb Sr Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe
6 Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po At Rn
7 Fr Ra Ac Th Pa U Np Pu Am Cm Bk Cf Es Fm Md No Lr Rf Db Sg Bh Hs Mt Ds Rg Cn Nh Fl Mc Lv Ts Og
8 Nw G Ls Dm Ms T Dt Mw Pk By Bz Fn Dw To Pl Ah My Cv Fy Cw A Ed Ab Bu Du Sh Hb Da Bo Fa Av So Hz Wt Dr Lw Vh Hk Ke Ap Vw Hu Fh Ma Kp Gb Bq Hi Kf Bn J Hm Bs Rs
9 Ul Gr Mr An Hy Ck Do Iz Eg Af Bhz Mm Ch Qt Bhr Cy Lg Jk Hl Bw Rm Gk Ll Pi Sk Ie El Sv Me Jz Nm Abr Ea Sp Wg Sl Jo Bl En Ci Ht Bp Ud It Yh Jp Ha Vi Gc L Ko Ja Pp Gv Dc Bm Jf Km Aus St
10 Of Lb Lm Tyv Ps Vx Ng Mdl Va Ae Chn Kg Nz Ia Iq Ua Lo Ki Wc Put Spb Vs Prl Su Ic Zh Sd Le Cp Ml Tv Fj Wl Sa Kb Mh Tk Nr Hd Cld Is M Sun Mrs Aw Ks Jm Di Chy Ln Str Yt Zs Pv Mz Ve Sth Stl Kz Pas Mas Wb Asp Bt E Ct Tn Eh The Pe Zp Spr Ad Cc Io Lh Yn On Mtv Ob Tu Vyz Ol Vv Chk Arm Ff Tw Ka Nl Il Ur Kh Sdg Q Nv Mts Lf Mp Zg Iv X Mj Iy Ov Tq
11 Oa Oe Ai Dk Hn Lc Aut Et Tg Cok Mv Lx Uk Fp Gp Mq Sol Gm Pal Pc Jd Sud Vt Tr Id Em Mu Sey May Cor Mur Ber Td Gn Svc Agl Ey Fk Sog Asc Tt Bd Tks Bvg Uvg Nk Atf Chd Tkc Stp Cym Ly Rt Mi Ckr Sgl Tog Bin Nc Mov Sie Ny Nu Ao Psy Grs De Zw Cel Ft Nn Aj Bv Fi Afg Thl Cub Lib Od Hr Ep Pn Xr Ty Dn Oy Oc Tri Apl Hx Za Ot Uz Ais Om Bf Tz Gu Lk Bb Bvh Ws Lz Kw Mx Cg
12 Nik Nie Wk We Ug Sz Sw Cb Ig Mb Gy Wrg Dv Cool Gkz Gi Dj Vz Sy Ei Ro Peu Pan Nep Cmr Aa Tun Ay Cnd Gl Kd Bzl Kv Hp Dx Gs Agz Bc Bcm Gf Im Lt Mri Spi Col Pep Go Ow Dl Phl Sgp Trb Uy Clk Ik Tf Gt Ix Ph Qo Ak Nj Myl Ctc Mcg Dlw Ncl Scl Oh Wv Fd Wo Ns Mit Msu Az Nvd Aks Nx Ut Als Alb Clr Hw Tx Gg Ih Mon Iw Wy Or Ii Ndk Sdk Nsk Iu Vo Kn Ok Lus Kc Nyk Min Ntm Aub Gya Hit Lth Pg Slv Ew Cri Ib Dcr Wq Z Ql Ky Js Py Ue Wd Go Kl Ou Mf Op Uc Ip Ec Mis Alh Oo Dta Px Mim Vr Ub Puc Sx Nrd Dd Oi Jt Rl Mbu Gsp Dsp Glt Ei Clp Eo Ku Pq Yi Ld
13 Iso Psi Ery Eri Auo Tyo Euh Oth Ain Cap Ade Teb Beh Fb Mdf Aeg Tqq Skl Tyr Bg Ri Prt Sq Ax Jx Hyo Gep Ij Trv Dh Jn Cen Ces Btl Mth Ek Ldm Cls Tel Nid Bed Ved Ss Nrv Nso Hat Log Cyl Thy
Gh Dp If