Solvent- and vapor-induced isomerization between the luminescent solids [CuI(4-pic)](4) and [CuI(4-pic)](infinity) (pic = methylpyridine). The structural basis for the observed luminescence vapochromism

Exposure of the polymeric solid [CuI(4-pic)](infinity) (pic = picoline = me thyl pyridine) to liquid or vapor toluene leads to disappearance of its roo m-temperature blue emission (lambda (max) 437 nm) and the appearance of a y ellow emission (lambda (max) 580 nm) characteristic of the [CuI(4-pic)](4) tetramer. The process is reversed when the latter is exposed to liquid or v apor n-pentane. Analogous transformations between the tetrameric and polyme ric forms do not occur when the 3-picoline analogues [CuI(3-pic)](x) are si milarly treated. Single-crystal X-ray diffraction studies on the compounds [CuIL](infinity) and [CuIL](4) (L = 3-, 4-pic) indicate that the 4-pic tetr anuclear isomer incorporates toluene into its solid phase to give a materia l with the composition [CuI(4-pic)](4). 2C(6)H(5)CH(3), but the other three phases are solvent-free. The chains in the two polymeric phases exhibit do uble-zigzag configurations, also commonly observed in zeolitic tetrahedral structures. In both polymeric phases, the chains propagate along the monocl inic b axis. The 3-pic tetrameric phase can be described as a close-packed structure of [CuIL](4) units, whereas tetramers in the 4-pic phase form inf inite columns along the unique tetragonal c axis segregated by four columns of toluene pairs. These structural differences explain the different behav iors during the phase transformation between tetrameric and polymeric polym orphs of the 3-pic and 4-pic compounds.