Rare-earth-activated glasses for solar energy conversion
Transparent Optical Networks(2011)
摘要
The solar cells efficiency may be improved by better exploitation of the solar spectrum, making use of the down-conversion mechanism, where one high energy photon is cut into two low energy photons. The choice of the matrix is a crucial point to obtain an efficient down-conversion process with rare-earth ions. When energy transfer between rare earth ions is used to activate this process, high emission and absorption cross sections as well as low cut-off phonon energy are mandatory. In this paper we present some results concerning 70SiO2-30HfO2 glass ceramic planar waveguides co-activated by Tb3+/Yb3+ ions, fabricated by sol gel route using a top-down approach, and a bulk fluoride glass of molar composition 70ZrF4 23.5LaF3 0.5AlF3 6GaF3 co-activated by Pr3+/Yb3+ ion. Attention is focused on the assessment of the energy transfer efficiency between the two couples of rare earth ions in the different hosts.
更多查看译文
关键词
aluminium compounds,fluoride glasses,gallium compounds,glass ceramics,hafnium compounds,lanthanum compounds,optical fabrication,optical glass,optical planar waveguides,praseodymium,sol-gel processing,solar energy concentrators,terbium,ytterbium,zirconium compounds,sio2-hfo2:tb,yb,zrf4-laf3-alf3-gaf3:pr,down-conversion process,energy transfer efficiency,fluoride glass,glass ceramic planar waveguides,light concentrators,molar composition,rare-earth-activated glasses,sol-gel process,solar cells,solar energy conversion,energy transfer,glass-ceramic waveguides,quantum cutting,rare earth,silica-hafnia,ions,sol gel process,glass,cross section,spectrum,photonics,solar energy,ceramics,top down
AI 理解论文
溯源树
样例
生成溯源树,研究论文发展脉络
Chat Paper
正在生成论文摘要