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
|
|---|
| Plutonium(II) | |
|---|
| Plutonium(III) |
- PuAs
- PuH3
- PuP
- PuB
- PuF3
- PuCl3
- PuBr3
- PuI3
- PuN
- Pu2O3
- PuS
- Pu2S3
- PuS2
- Pu2O2S
- PuOBr
- PuOCl
- PuOF
- PuOI
|
|---|
| Plutonium(III,IV) | |
|---|
| Plutonium(IV) |
- Pu(NO3)4
- PuF4
- PuO2
- Pu(IO3)4
- Pu(SO4)2
- Pu(C8H8)2
- PuOS
- Pu2O2S3
|
|---|
| Plutonium(V) | |
|---|
| Plutonium(VI) | |
|---|
| Plutonium(VIII) | |
|---|
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
|
|
Am
|
Cm
|
Bk
|
Cf
|
Es
|
Fm
|
Md
|
No
|
|