项目名称: 银纳米簇宽带敏化稀土掺杂近红外下转换发光玻璃研究
项目编号: No.51502190
项目类型: 青年科学基金项目
立项/批准年度: 2016
项目学科: 一般工业技术
项目作者: 黄小勇
作者单位: 太原理工大学
项目金额: 21万元
中文摘要: 以研究用于提高硅太阳能电池效率的新型银纳米簇宽带敏化稀土掺杂近红外下转换发光玻璃与器件所涉及的新原理、新材料与新工艺基础问题为目标。针对传统下转换稀土离子对RE3+-Yb3+(RE=Tb, Pr, Tm, Ho, Er)对紫外光-蓝光光子吸收窄、吸收效率低和近红外发光弱的缺点,本项目拟以在300-500 nm波长范围具有宽带强吸收特性的银纳米簇为敏化剂,通过能量传递作用敏化RE3+离子,随后再通过稀土离子对RE3+-Yb3+的下转换发光过程,以期获得高转换效率的强近红外下转换发光。着重研究银纳米簇与稀土离子共掺杂发光玻璃的制备工艺、光谱特性、量子效率以及发光动力学行为。探讨能量传递和下转换发光机理,并建立相应的物理模型。本项目的研究将为探索与设计太阳能电池用新型高效光谱转换材料提供实验依据和理论指导,为开发高效硅太阳能电池提供技术支撑。
中文关键词: 发光玻璃;近红外下转换;银纳米簇;稀土离子;能量传递
英文摘要: This project proposal aims to carry out the fundamental investigation on the new mechanisms, materials and fabrication techniques of silver (Ag) nanoclusters broadband sensitized rare-earth (RE)-doped near-infrared downconversion luminescent glasses and related optoelectronic devices for enhancing the efficiencies of crystalline-silicon solar cells. The widely investigated RE3+-Yb3+ (RE = Tb, Pr, Tm, Ho, Er) downconversion couples possess a fundamental shortcoming: their absorption spectra are based on the forbidden 4f-4f transitions, and thus their absorption band in the ultraviolet-blue region is narrow and excitation efficiency is low, finally resulting in very weak near-infrared emissions from Yb3+ ions. Herein, our project will investigate the possibility of the Ag nanoclusters with intense absorption band in the 300-500 nm region as broadband sensitizer for these RE3+-Yb3+ downconversion couples. The proposed energy-transfer mechanism involves two-step processes: (1) Ag nanoclusters directly absorb a ultraviolet-blue photon and transfer the excited energy to RE3+ ions, and (2) the energy of the excited RE3+ ions is transferred to two different Yb3+ ions through downconversion, and thus intense near-infrared emissions can be achieved. We will focus on the fundamental investigation of the preparation method, optical properties, quantum efficiency, and luminescence dynamics of Ag and RE3+-Yb3+ co-doped fluorescent glasses. Then, we will discuss the mechanisms of the energy-transfer processes and downconversion luminescence, and finally establish the corresponding physical model. It is expected that this project could provide experimental data and theoretical base for the development and design of spectral conversion materials for solar cells, and thus could provide technological supports for fabricating high-efficiency crystalline-silicon solar cells.
英文关键词: luminescent glasses;near-infrared downconversion;fluorescent silver nanoclusters;rare-earth ions;energy transfer