Synthesis of poly(phenylgermanosilanes) and poly(phenylgermanocarbosilanes)

Phenyl-substituted poly(germanosilanes) and poly(germanocarbosilanes) have been synthesized through the Wurtz-Kipping reaction via dechlorination of mixtures of dichlorophenylsilanes (PhSi(R)Cl₂, where R = H, Ph, or vinyl) with diphenyldichlorogermane in the presence of an ultradisperse sodium suspension. The polymers thus synthesized have been investigated by X-ray fluorescence analysis; FTIR and UV spectroscopy; and ¹H, ¹³C, and ²⁹Si NMR spectroscopy. The peak maxima in the UV spectra of the polymers dissolved in THF are in the wavelength range of 300–375 nm. Under the effect of UV irradiation with a wavelength of 320–380 nm, photoluminescence emission peaking in the range of 380–470 nm is observed. Size exclusion chromatography indicates that all the (co)polymers under examination are characterized by a narrow GPC curve and their polydispersity indexes are no larger than 1.5. According to dynamic TGA data, the weight loss of the polymers reaches 80% even at 500°C. Owing to formation of branched structures in vinyl-substituted copolymers, the GPC curves widen (the polydispersity index is ～6), while the yield of an inorganic residue at 900°C amounts to 40%.