The preparations and properties are described of a series of[Rh
2]
4+ complexes possessin
g carboxylatesand N-basedchelates as li
gands. Treatment ofRh
2(O
2CR)
4(MeOH)
2(R = Me (
1), Et (
2), Ph (
3) orCF
3 (
4)) with 2 equiv of2,2'-bipyridine (bpy) in refluxin
g MeCN leads to the[Rh
2(O
2CR)
2(bpy)
2]
2+cation (in complexes
5-
9).Reactionof
1 with 1,10-phenanthroline (phen),4,4'-dimethyl-2,2'-bipyridine (Me
2bpy),4,4'-diphenyl-2,2'-bipyridine (Ph
2bpy), and 4,7-diphenyl-1,10-phenanthroline(Ph
2phen) leads to the analo
gous cations of complexes
10-
13.Complex
6a,[Rh
2(OAc)
2(bpy)
2(MeCN)
2](PF
6)
2·2MeCN,crystallizes in monoclinic space
group
P2
1/
a with thefollowin
g cell parameters at -172
![](/ima<font color=)
ges/entities/de
g.
gif">C:
a =14.433(2) &Arin
g;,
b = 12.810(1) &Arin
g;,
c =22.78(3) &Arin
g;,
![](/ima<font color=)
ges/
gifchars/beta2.
gif" BORDER=0 ALIGN="middle"> = 104.42(3)
![](/ima<font color=)
ges/entities/de
g.
gif">,
Z= 4, and
V = 3971.2 &Arin
g;
3. Complex
9,[Rh
2(O
2CCF
3)
4(bpy)
2]·Me
2CO,crystallizes in triclinic space
group
P![](/ima<font color=)
ges/entities/onemacr.
gif">with the followin
g cell parameters at 20
![](/ima<font color=)
ges/entities/de
g.
gif">C:
a =14.260(4) &Arin
g;,
b = 15.375(4) &Arin
g;,
c =9.709(2) &Arin
g;,
![](/ima<font color=)
ges/
gifchars/alpha.
gif" BORDER=0> = 105.98(2)
![](/ima<font color=)
ges/entities/de
g.
gif">,
![](/ima<font color=)
ges/
gifchars/beta2.
gif" BORDER=0 ALIGN="middle"> = 97.49(2)
![](/ima<font color=)
ges/entities/de
g.
gif">,
![](/ima<font color=)
ges/
gifchars/
gamma.
gif" BORDER=0 > = 70.32(2)
![](/ima<font color=)
ges/entities/de
g.
gif">,
Z = 2,and
V = 1925.2 &Arin
g;
3. Both
6aand
9 contain a sin
gly-bonded[Rh
2]
4+ unitwith two
cis brid
gin
g RCO
2- groupsand two
syn-bpy chelate
groups in a near-eclipsedconformation about theRh-Rh vector. Reaction of[Rh
2(tpy)
2(MeCN)
4](BF
4)
4(
15) (tpy = 2,2':6',2''-terpyridine) withNBu
n4(O
2CPh)
gives[Rh
2(O
2CPh)(tpy)
2(MeCN)
2](BF
4)
3·MeCN(
16). Complex
16 crystallizes in triclinicspace
group
P![](/ima<font color=)
ges/entities/onemacr.
gif"> withthe followin
g cell parameters at -168
![](/ima<font color=)
ges/entities/de
g.
gif">C:
a =11.684(4) &Arin
g;,
b = 20.373(8) &Arin
g;,
c =10.451(3) &Arin
g;,
![](/ima<font color=)
ges/
gifchars/alpha.
gif" BORDER=0> = 93.47(2)
![](/ima<font color=)
ges/entities/de
g.
gif">,
![](/ima<font color=)
ges/
gifchars/beta2.
gif" BORDER=0 ALIGN="middle"> = 110.53(1)
![](/ima<font color=)
ges/entities/de
g.
gif">,
![](/ima<font color=)
ges/
gifchars/
gamma.
gif" BORDER=0 > = 100.03(2)
![](/ima<font color=)
ges/entities/de
g.
gif">,
Z =2, and
V = 2274.1 &Arin
g;
3. The cation of
16 consists of a [Rh
2]
4+ unitwith abrid
gin
g PhCO
2- group and two chelatin
g tpy
groups. The solution
1H NMR properties of complexes
6-
13 and
16 show the complexes to retain their solid-state structureson dissolution. The electrochemical properties of
6-
13 and
16 were investi
gated bycyclic voltammetry (CV) and differential pulse voltammetry (DPV) inMeCN.The bis(bpy) and -(phen) complexes
6-
8, 10, and
11 show areversible, one-electron reduction in the ran
ge-0.83 to -0.91 V
vs ferrocene and an additional,irreversible reduction and an irreversible oxidation; thePh
2bpy(
12) and Ph
2phen (
13) complexesshow a two-electron reversible reduction at -0.61 to -0.76 and areversibleone-electron oxidation at 0.68-0.89 V. Consideration of thepotentials as a function of carboxylate and chelateidentity leads to the conclusion that the reductions are li
gand(chelate)-based. This is supported by an extendedHückel calculation on the model compound[Rh
2(O
2CH)
2(bpy)
2(HCN)
2]
2+,which shows the LUMO to be a bpy-based orbital comprisin
g in-phase,
![](/ima<font color=)
ges/
gifchars/si
gma.
gif" BORDER=0 > overlap of two bpy
![](/ima<font color=)
ges/
gifchars/pi.
gif" BORDER=0 >* orbitals,one on each of the
syn-bpy
groups. Incontrast, complex
16 shows no reversible reductionprocesses. Complex
6b,[Rh
2(OAc)
2(bpy)
2(MeCN)
2](BF
4)
2,in MeCN may be reduced with sodium acenaphthylenide in THF to
give deepblue[Rh
2(OAc)
2(bpy)
2(MeCN)
2](BF
4) (
14) in hi
gh yield. The cation of
14 may also be
generated by controlled potentialelectrolysis of
6a inMeCN at -0.99 V and by heatin
g of a solution of
6a or
6b in alcohol.