An original series of eight 9,9'-spirobifluorene substituted differently by ethynylbenzene or N-(ethynylphenyl) benzamide fragments, carrying hexadecyl carbon chains, in the 2-, 4-, and 7-positions have been synthesized. The substitution pattern/photophys. properties relationship as well as the thermal properties have been deeply studied. The photophys. properties of these eight derivs. were found to be higly sensitive to the no., the position, the conjugation length, and the nature of the alkynyl fragment. All compds. are deep blue emitters in soln. and in the condensed state, and quantum yields up to 40% were found in the solid state. Finally, the sym. introduction of four ethynylbenzene or N-(ethynylphenyl) benzamide fragments in the 2-, 2'-, 7-, and 7'-positions was found to be mandatory for the emergence of blue emissive mesomorphic materials, and X-ray scattering analyses have evidenced the formation of columnar mesophases of hexagonal or rectangular symmetries contg. staggered double-strings formed by the face-to-face stacking of SBF core halves. [on SciFinder(R)]