Db. Mitzi et P. Brock, Structure and optical properties of several organic-inorganic hybrids containing corner-sharing chains of bismuth iodide octahedra, INORG CHEM, 40(9), 2001, pp. 2096-2104
Two organic-inorganic bismuth iodides of the form (H3N-R-NH3)BiI5 are repor
ted, each containing long and relatively flexible organic groups, R. The in
organic framework in each case consists of distorted BiI6 octahedra sharing
cis vertexes to form zigzag chains. Crystals of (H3NC18H24S2NH3)BiI5 were
grown from a slowly cooled ethylene glycol/2-butanol solution containing bi
smuth(III) iodide and AETH(.)2HI, where AETH = 1,6-bis[5 '-(2 " -aminoethyl
)-2 ' -thienyl]hexane. The new compound, (H(2)AETH)BiI5, adopts an orthorho
mbic (Aba2) cell with the lattice parameters a = 20.427(3) Angstrom, b = 35
.078(5) Angstrom, c = 8.559(1) Angstrom, and Z = 8. The structure consists
of corrugated layers of BiI52- chains, with Bi-I bond lengths ranging from
2.942(3) to 3.233(3) Angstrom, separated by layers of the organic (H(2)AETH
)(2+) cations. Crystals of the analogous (H3NC12H24NH3)BiI5 compound were a
lso prepared from a concentrated aqueous hydriodic acid solution containing
bismuth(III) iodide and the 1,12-dodecanediamine (DDDA) salt, DDDA(.)2HI.
(H(2)DDDA)BiI5 crystallizes in an orthorhombic (Ibam) cell with a = 17.226(
2) Angstrom, b = 34.277(4) Angstrom, c = 8.654(1) Angstrom, and Z = 8. The
Bi-I bonds range in length from 2.929(1) to 3.271(1) Angstrom. While the in
organic chain structure is nearly identical for the two title compounds, as
well as for the previously reported (H3NC6H12NH3)BiI5 [i.e., (H(2)DAH)BiI5
] structure, the packing of the chains is strongly Influenced by the choice
of organic cation. Optical absorption spectra for thermally ablated thin f
ilms of the three organic-inorganic hybrids containing BiI52- chains are re
ported as a function of temperature (25-290 K). The dominant long-wavelengt
h feature in each case is attributed to an exciton band, which is apparent
at room temperature and, despite the similar inorganic chain structure, var
ies in position from 491 to 541 nm (at 25 K).