Er3+Incorporated Transparent Ternary Nanocomposite as Active Core Material in Polymer Optical Preform with Improved Photo-emission Performance

Ipsita Chinya, R. Sen, A. Dhar
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Abstract

A polymer as a host in the optical waveguide has many advantages and, when doped with rare-earth (RE) elements, offers an efficient connection, compared to its glass-based counterparts as an amplifier. However, a polymer matrix causes the concentration quenching effect of REs in the polymer matrix, making the fabrication of RE-doped polymer waveguides more complicated as compared to the fabrication of glass-based complements. Moreover, controlling scattering loss at the particle-polymer interface for maintaining the optical clarity of the composite is also a great challenge. The main aim of the present study was to optimize the synthesis of Er2O3grafted Polymethylmethacrylate (PMMA)-Polystyrene (PS) composite based transparent ternary nanocomposite and its characterization to implement them as a potential material for active core in Polymer Optical Preform (POP). Nano Erbium Oxide (Er2O3) was successfully synthesized by the wet-chemical method and encapsulated by a polymerizable surfactant, i.e., 3-Methacyloxypropyltrimethoxy silane (MPS). The encapsulated nanoparticles were further subjected to grafting with PMMA using in-situ polymerization of methyl methacrylate (MMA) followed by blending with PS via solvent mixing technique. The optical transparency of the ternary composite was achieved by fine-tuning the diameter (15-20 nm) of the PMMA coated Er2O3. The crystallinity present in Er2O3 was significantly reduced after PMMA coating. The comparatively higher refractive index obtained at 589 nm wavelength for the synthesized material indicated its usability as active core material in the presence of a commercial acrylate cladding tube. A photoluminescence (Pl) study indicated that the technique might be used for a higher level of Er3+doping in polymer matrix without sacrificing its transparency. The obtained results indicated that the sample synthesized with the adopted technique gives better Pl intensity compared to the other methods of Er3+ incorporation in polymer optical preform (POP).
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Er3+加入透明三元纳米复合材料作为聚合物光学预制体的活性芯材,提高了光发射性能
聚合物作为光波导的主体具有许多优点,当掺杂稀土(RE)元素时,与作为放大器的玻璃基对口物相比,它提供了高效的连接。然而,聚合物基体会导致稀土在聚合物基体中的浓度猝灭效应,使得稀土掺杂聚合物波导的制作比玻璃基补体的制作更加复杂。此外,控制颗粒-聚合物界面的散射损失以保持复合材料的光学清晰度也是一个很大的挑战。本研究的主要目的是优化er2o3接枝聚甲基丙烯酸甲酯(PMMA)-聚苯乙烯(PS)复合透明三元纳米复合材料的合成及其表征,以实现其作为聚合物光学预成型(POP)活性芯的潜在材料。采用湿化学法制备了纳米氧化铒(Er2O3),并用可聚合表面活性剂3-甲基氧基丙基三甲氧基硅烷(MPS)包封。将包被的纳米粒子通过原位聚合与PMMA接枝,然后通过溶剂混合技术与PS共混。三元复合材料的光学透明度是通过微调PMMA涂层Er2O3的直径(15-20 nm)来实现的。PMMA涂层后,Er2O3的结晶度明显降低。在589 nm波长处获得的相对较高的折射率表明,在商用丙烯酸酯包层管存在的情况下,该合成材料可作为活性芯材料。一项光致发光(Pl)研究表明,该技术可以在不牺牲其透明度的情况下在聚合物基体中掺杂更高水平的Er3+。实验结果表明,与其他掺杂Er3+的方法相比,采用该方法合成的样品具有更好的发光强度。
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