Structural and spectroscopic properties of SrO–As2O3–TeO2 glasses

IF 3.2 3区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR

Journal of Solid State Chemistry Pub Date : 2025-05-06 DOI:10.1016/j.jssc.2025.125413

Rajesh Siripuram , I. Mahender , Suresh Sripada , P. Satya Gopal Rao

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Abstract

Arsenic tellurite glass and glass ceramics doped with strontium were prepared by conventional melt quenching and heat treatment techniques with stoichiometric equation xSrO+(40-x)As₂O₃+60TeO₂: x=10 (SAT-1), 20 (SAT-2), 30 (SAT-3) mol%. The role of SrO on structural and spectroscopic features of SAT samples have been investigated. In order to generate crystalline phases having nano scale, glass samples were exposed to controlled heat treatment at 460 °C for 8hrs. X-ray diffraction (XRD) confirms non-crystalline structure for SAT glass samples whereas, crystalline phases i.e., Te₄Sr₃O₁₁, α–TeO₂, and Claudetite (As₂O₃) were identified in glass ceramic samples with crystallite size ranging from 25 to 58 nm. Structural disorder in glass matrix showed a significant role in mechanical and physical properties of glass samples at varying SrO concentration (10–30 mol%). The density decreases monotonically with increase in SrO concentration, which could be due to substitution of higher molecular weight As₂O₃ with a lower molecular weight SrO, that results in a decrease in the composition's net molecular weight. Further, thermal parameters were increased monotonically such as, glass transition temperature (T_g∼353→425°C), on-set crystalline temperature (T_õ_∼378→492°C), and peak crystalline temperature (T_p∼405→506°C). Increased optical parameters were also observed with optical band gap (E_g∼2.215→3.179eV), Urbach energy (ΔΕ∼0.191→0.287eV) and refractive index (n∼2.302→2.357) while absorption edge (λ_c∼456→361A^o) was found to decrease with increase in SrO from 10 to 30mol %. The Raman and IR studies show that TeO³⁻, AsO³⁻ terminal groups are formed in the glass network through cleavage of Te–O–Te and/or As–O–As, Te–O–As linkages. AFM affirms that glass ceramic system exhibits a ripple pattern with a relief height in the order of 25–80nm. The FESEM analysis illustrates that glass ceramics contains perspicuous and haphazardly distributed nanoclusters possessing sizes in the range from 42 to 104nm.

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SrO-As2O3-TeO2玻璃的结构和光谱性质

采用常规熔体淬火和热处理工艺制备了砷碲酸盐玻璃和掺锶玻璃陶瓷，化学计量方程为xSrO+(40-x)As2O3+60TeO2: x=10 (SAT-1), 20 (SAT-2), 30 (SAT-3) mol%。研究了SrO对SAT样品结构和光谱特征的影响。为了生成纳米级的晶相，玻璃样品在460°C下受控热处理8小时。x射线衍射（XRD）证实了SAT玻璃样品的非晶结构，而玻璃陶瓷样品的晶相为Te4Sr3O11， α-TeO2和cladeite (As2O3)，晶粒尺寸在25 ~ 58 nm之间。SrO浓度（10 ~ 30 mol%）变化时，玻璃基体的结构失序对玻璃样品的力学和物理性能有显著影响。随着SrO浓度的增加，密度单调降低，这可能是由于高分子量的As2O3被低分子量的SrO取代，导致组合物的净分子量降低。此外，热参数单调增加，如玻璃化转变温度（Tg ~ 353→425℃）、设定结晶温度（Tõ ~ 378→492℃）和峰值结晶温度（Tp ~ 405→506℃）。光带隙（Eg ~ 2.215→3.179eV）、乌尔巴赫能（ΔΕ ~ 0.191→0.287eV）和折射率（n ~ 2.302→2.357）也增加了光学参数，而吸收边（λc ~ 456→361Ao）随着SrO从10%增加到30mol %而减小。Raman和IR研究表明，TeO3−、AsO3−端基团是通过Te-O-Te和/或As-O-As、Te-O-As键的裂解在玻璃网络中形成的。原子力显微镜证实，玻璃陶瓷系统呈现波纹图案，浮雕高度在25-80nm左右。FESEM分析表明，玻璃陶瓷含有明显的和随机分布的纳米团簇，其尺寸在42到104nm之间。

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来源期刊

Journal of Solid State Chemistry 化学-无机化学与核化学

CiteScore

6.00

自引率

9.10%

发文量

848

审稿时长

25 days

期刊介绍： Covering major developments in the field of solid state chemistry and related areas such as ceramics and amorphous materials, the Journal of Solid State Chemistry features studies of chemical, structural, thermodynamic, electronic, magnetic, and optical properties and processes in solids.