Nihonij

113
Nh
Skupina
13
Perioda
7
Blok
p
Protons
Electrons
Neutrons
113
113
173
General Properties
Vrstno število
113
Atomska teža
[286]
Mass Number
286
Kategorija
Šibke kovine
Barva
n/a
Radioactive
Da
The name comes from the common Japanese name for Japan
Kristalna struktura
n/a
Zgodovina
Nihonium was identified in 2003 as an alpha decay product of element 115, moscovium by a team composed of Russian scientists at Joint Institute for Nuclear Research, Dubna and American scientists at the Lawrence Livermore National Laboratory.

The Dubna-Livermore collaboration has strengthened their claim for the discovery of nihonium by conducting chemical experiments on the final decay product 268Db.
Electrons per shell
2, 8, 18, 32, 32, 18, 3
Razporeditev elektronov
[Rn] 5f14 6d10 7s2 7p1
Nh
Nihonium is historically known as eka-thallium
Physical Properties
Faza snovi
Trdnina
Gostota
16 g/cm3
Tališče
703,15 K | 430 °C | 806 °F
Vrelišče
1373,15 K | 1100 °C | 2012 °F
Talilna toplota
n/a
Izparilna toplota
n/a
Toplotna kapaciteta
-
Abundance in Earth's crust
n/a
Abundance in Universe
n/a
The
Zasluge za slike: Wikimedia Commons (Hrustov)
The element was discovered at the Joint Institute for Nuclear Research in Dubna, Russia
CAS Number
54084-70-7
PubChem CID Number
n/a
Atomic Properties
Atomski polmer
-
Kovalentni polmer
136 pm
Elektronegativnost
-
Ionization Potential
-
Atomic Volume
-
Toplotna prevodnost
-
Oksidacijska stanja
1, 3, 5
Applications
Nihonium is used for scientific research purposes only.
Nihonium is harmful due to its radioactivity
Isotopes
Stable Isotopes
-
Unstable Isotopes
278Nh, 282Nh, 283Nh, 284Nh, 285Nh, 286Nh, 287Nh