Microstructure and Thermal Properties of the GeS2-In2S3-CsI Glasses

The-homogeneous GeS2-In2 S3-CsI glassy samples were prepared by conventional melt-quenching method. When the molar ratio of In2 S3 to Csl remains 1, the non-crystalline region can extend to the composition 0.4GeS2-0.3In2S3-0.3 CsI. And with the addition of CsI, the glass-forming ability of this serial glass reaches its maximum at the composition 0.8GeS2-0.1 In2 S3 -0.1CsI. According to the Raman spectra, the microstructure of these glasses is mainly constituted by GeS4 ] and InS4-xIx ] tetrahedra, which are interconnected by the bridging sulfur atoms ; meanwhile, the ethane-liked structural units S3 Ge-GeS3 ] can be formed because of the lacking of sulfur ; Cs ^＋ ion, which is added from CsI , exists as the nearest neighbor of I-ion in the glassy network.

Microstructure and thermal properties of the GeS2-In2S3-CsI glasses

The homogeneous GeS_2-In_2S_3-CsI glassy samples were prepared by conventional melt-quenching method. When the molar ratio of In_2S_3 to CsI remains 1, the non-crystalline region can extend to the composition 0.4GeS_2-0.3In_2S_3-0.3CsI. And with the addition of CsI, the glass-forming ability of this serial glass reaches its maximum at the composition 0.8GeS_2-0.1In_2S_3-0.1CsI. According to the Raman spectra, the microstructure of these glasses is mainly constituted by GeS_4 and InS_ 4-x I_x tetrahedra, which are interconnected by the bridging sulfur atoms; meanwhile, the ethane-liked structural units S_3Ge-GeS_3 can be formed because of the lacking of sulfur; Cs~+ ion, which is added from CsI, exists as the nearest neighbor of I-ion in the glassy network.