Plutonium carbide

Plutonium carbide comes in several stoichiometries (PuC and Pu2C3).[1] It can be used as a nuclear fuel for nuclear reactors in conjunction with uranium carbide. The mixture is also labeled as uranium-plutonium carbide (UPuC).

References

  1. ^ Emeléus, Harry Julius; Alan G. Sharpe (1968). Advances in inorganic chemistry and radiochemistry, Volume 12. New York, New York: Academic Press. pp. 205–206. ISBN 9780080578606.
  • v
  • t
  • e
  • v
  • t
  • e
Plutonium compounds
Plutonium(II)
  • PuH2
  • PuB2
  • PuSe
  • PuSi
Plutonium(III)
  • PuAs
  • PuH3
  • PuP
  • PuB
  • PuF3
  • PuCl3
  • PuBr3
  • PuI3
  • PuN
Plutonium(IV)
  • PuC
  • Pu(NO3)4
  • PuF4
  • PuO2
  • Pu(IO3)4
  • Pu(C8H8)2
Plutonium(V)
  • PuF5
  • XePuF6
Plutonium(VI)
  • PuF6
Plutonium(VIII)
  • PuO4
  • v
  • t
  • e
Salts and covalent derivatives of the carbide ion
CH4
+H 		He
Li4C
Li2C2 		Be2C B4C
BnCm
+B 		C
C2
C4− 		CN
(CN)2
+N 		CO
CO2
C3O2 		CF
CF4 		Ne
Na2C2 Mg2C Al4C3 SiC
+Si 		+P CS2
+S 		CCl4
+Cl 		Ar
K2C2 CaC
CaC2 		ScC
Sc3C4
Sc4C3
Sc15C19 		TiC VC Cr3C2 MnC2 Fe2C
Fe3C
Fe5C2 		CoC Ni2C CuC
CuC2 		Zn2C Ga +Ge +As CSe2 CBr4
+Br 		Kr
Rb2C2 SrC2 YC ZrC NbC MoC
Mo2C 		Tc Ru2C Rh2C PdC2 Ag2C2 CdC InC Sn Sb Te CI4
+I 		Xe
Cs2C2 BaC2 * LuC2 HfC TaC
TaC5 		WC Re2C Os2C Ir2C PtC Au2C2 Hg2C2 TlC ?PbC Bi Po At Rn
Fr Ra ** Lr Rf Db Sg Bh Hs Mt Ds Rg Cn Nh Fl Mc Lv Ts Og
 
* LaC2 CeC2 PrC2 NdC2 PmC2 SmC2 EuC2 GdC2 TbC2 DyC2 HoC2 ErC2 TmC2 YbC2
** Ac ThC
ThC2 		PaC UC NpC PuC
Pu2C3 		Am Cm Bk Cf Es Fm Md No