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首页> 外文期刊>Applied Surface Science >Bi~(3+) occupancy rearrangement in K_(2-x)A_xMgGeO_4 phosphor to achieve ultra-broad-band white emission based on alkali metal substitution engineering
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Bi~(3+) occupancy rearrangement in K_(2-x)A_xMgGeO_4 phosphor to achieve ultra-broad-band white emission based on alkali metal substitution engineering

机译:Bi〜(3+)在K_(2-X)A_XMGGEO_4磷光体中占用重新排列,以实现基于碱金属替代工程的超宽带白色发射

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摘要

Ultra-broad-band white emitting phosphors have a wide application prospect in the new generation of illumi-nation systems. Due to the sensitivity of Bi3+ to the surrounding environment, it exhibits different luminescence properties in different crystallographic sites, which makes it easy to achieve white emission. Cationic substitution engineering is the most effective strategy for controlling the environment around Bi-site and realizing the spectrum tuning. Herein, we conducted substitution engineering in K2MgGeO4:Bi3+ (KMGO:Bi3+) that uses alkali metal A(+) (A = Li, Na, Rb) to substitute K+. The difference in emission spectrum excited at various wavelengths is related to extra luminescent centers generation and Bi3+ occupancy rearrangement in KMGO:Bi3+ under the influence of Li+ and Na+ , which also leads to the expansion of full widths at half-maximum (FWHM) to 204 nm forming a bright white emission. Besides, the modulation of Rb+ increases the activation energy and enhances its thermal stability to 88.66%. The high R-a values (93.4) of the fabricated WLED indicate that K1.456Na0.54MgGeO4:0.004Bi(3+) could be used as a single-component white phosphor in solid-state lighting. Our research shows that alkali metal substitution engineering is of great significance to controlling the luminescence emission and improving the thermal stability of luminescent materials.
机译:超宽带白色发光磷光体在新一代的阐明系统中具有广泛的应用前景。由于Bi3 +对周围环境的敏感性,它在不同的晶体位点显示出不同的发光性质,这使得易于实现白色排放。阳离子替代工程是控制双现场周围环境的最有效策略,并实现频谱调谐。在此,我们在K2MgGeO4:Bi3 +(KMGO:Bi3 +)中进行替代工程,其使用碱金属A(+)(a = li,Na,Rb)来替代K +。在各种波长上激发的发射光谱差异与KMGO:Bi3 +在Li +和Na +的影响下的额外发光中心和Bi3 +占用重排,这也导致半最大(FWHM)到204的全宽的膨胀nm形成明亮的白色发射。此外,RB +的调节增加了活化能量,并提高了其热稳定性至88.66%。所制备的高的R-A值(93.4)表示K1.456NA0.54mgGeO 4:0.004Bi(3+)可用作固态照明中的单组分白磷。我们的研究表明,碱金属替代工程对控制发光发射并提高发光材料的热稳定性具有重要意义。

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  • 来源
    《Applied Surface Science》 |2021年第15期|150252.1-150252.11|共11页
  • 作者

    Zhu Haifeng; Feng Shuqing; Kong Zihui; Huang Xu; Peng Lu; Wang Jing; Wong Wai-Yeung; Zhou Zhi; Xia Mao;

  • 作者单位

    Hunan Agr Univ Sch Chem & Mat Sci Changsha 410128 Peoples R China|Hunan Opt Agr Engn Technol Res Ctr Changsha 410128 Peoples R China;

    Hunan Agr Univ Sch Chem & Mat Sci Changsha 410128 Peoples R China|Hunan Opt Agr Engn Technol Res Ctr Changsha 410128 Peoples R China;

    Hunan Agr Univ Sch Chem & Mat Sci Changsha 410128 Peoples R China;

    Hunan Agr Univ Sch Chem & Mat Sci Changsha 410128 Peoples R China;

    Hunan Agr Univ Sch Chem & Mat Sci Changsha 410128 Peoples R China;

    Sun Yat Sen Univ Sch Chem State Key Lab Optoelect Mat & Technol Guangzhou 510275 Peoples R China|Sun Yat Sen Univ Sch Mat Sci & Engn Guangzhou 510275 Peoples R China;

    Hong Kong Polytech Univ Dept Appl Biol & Chem Technol Hong Kong Peoples R China;

    Hunan Agr Univ Sch Chem & Mat Sci Changsha 410128 Peoples R China|Hunan Opt Agr Engn Technol Res Ctr Changsha 410128 Peoples R China;

    Hunan Agr Univ Sch Chem & Mat Sci Changsha 410128 Peoples R China|Hunan Opt Agr Engn Technol Res Ctr Changsha 410128 Peoples R China;

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  • 原文格式 PDF
  • 正文语种 eng
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  • 关键词

    Substitution engineering; Tunable emission; Ultra-broad-band white emission; WLED; Phosphor; K2MgGeO4:Bi3+;

    机译:替代工程;可调发射;超广频白色发射;WLED;磷;K2MGGEO4:BI3 +;

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