I think you mean Lead (IV) Bicarbonate, which is Pb(HCO3)4
The chemical formula of lead(IV) chromate is PbCrO4.
Pb(IV)-compositions are good oxidants. Pb(II) is more stable. Inert-Pair-Effect.
It'll decompose by heating, releasing carbondioxide: Pb(II) or plumbous carbonate: Pb(CO3) --> PbO + CO2 or Pb(IV) or plumbic carbonate: Pb(CO3)2 --> PbO2 + 2CO2
(NH4)2S(aq) + Pb(NO3)2(aq) → PbS(s) + 2NH4NO3(aq)
No, it is not the same. Refer to sulfate and sulfite: SO42- and SO32-Plumbate: (from Pb(IV) ): hydrated Pb(OH)62- or the anhydrous anions PbO32- (meta-plumbate) or PbO44- (ortho-plumbate)Plumbite: (from Pb(II) ): hydrated Pb(OH)64- , HPbO2- or anhydrous PbO22-
Pb(OH)4 Hydroxide ion has a charge of -1. Since the lead has a charge of +4, you need four hydroxide ions to keep the compound stable
The formula for lead bicarbonate is Pb(HCO3)4.
In most chemical environments, Pb (II) is more stable than Pb (IV). Therefore, Pb (IV) compounds will often extract electrons from other materials to form a Pb (II) compound instead.
The chemical formula of lead acetate is Pb(CH3COO)4.
The chemical formula of lead(IV) carbonate is Pb(CO3)2.
tin (IV) bicarbonate
The formula for lead (II) nitride is Pb3N2. The formula for lead (IV) nitride is Pb3N4
Lead IV chlorite is Pb(ClO2)4
Pb+4 Cl-1
The chemical formula of lead(IV) perchlorate is Pb(ClO4)4.
Lead(IV) Perchlorate
The chemical formula of lead(IV) chromate is PbCrO4.