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采用高温固相反应法分别合成了变价稀土镨和镱离子掺杂的绿色荧光粉[Ba(2-n-1.5x)REx]SiO4:nEu2+ (n=0.03, RE=Pr, Yb;x=0, 0.02,0.05,0.10).结果表明: 所有合成荧光粉的激发峰均为250~400 nm的宽峰, 与近紫外LED的发射光波长相匹配.发射峰位于450~550 nm之间, 是Eu2+的5d-4f跃迁的典型发射.Pr3+和Yb3+的掺入并未改变Ba2SiO4:Eu2+的相组成, 但对荧光强度的影响大, 且与掺杂元素、掺杂量和煅烧温度相关.当掺杂Pr3+和Yb3+的量为x=0.02时, 经1150 ℃煅烧所得荧光粉的发光强度分别是未掺杂时的595%和168%.证明三价稀土离子掺杂可以导致基质中的电荷缺陷而敏化Eu2+离子的发光, 而变价稀土离子的掺杂可以大大提高电荷缺陷, 导致荧光强度的进一步提高. 相似文献
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采用高温固相反应法分别合成了变价稀土镨和镱离子掺杂的绿色荧光粉[Ba(2-n-1.5x)REx]SiO4∶nEu^2+(n=0.03,RE=Pr,Yb;x=0,0.02,0.05,0.10)。结果表明:所有合成荧光粉的激发峰均为250-400 nm的宽峰,与近紫外LED的发射光波长相匹配。发射峰位于450-550 nm之间,是Eu2+的5d-4f跃迁的典型发射。Pr^3+和Yb3+的掺入并未改变Ba2SiO4∶Eu^2+的相组成,但对荧光强度的影响大,且与掺杂元素、掺杂量和煅烧温度相关。当掺杂Pr^3+和Yb3+的量为x=0.02时,经1150℃煅烧所得荧光粉的发光强度分别是未掺杂时的595%和168%。证明三价稀土离子掺杂可以导致基质中的电荷缺陷而敏化Eu^2+离子的发光,而变价稀土离子的掺杂可以大大提高电荷缺陷,导致荧光强度的进一步提高。 相似文献
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Recent investigations show that a power system is a highly nonlinear system and can exhibit chaotic behaviour leading to a voltage collapse, which severely threatens the secure and stable operation of the power system. Based on the finite-time stability theory, two control strategies are presented to achieve finite-time chaos control. In addition, the problem of how to stabilize an unstable nonzero equilibrium point in a finite time is solved by coordinate transformation for the first time. Numerical simulations are presented to demonstrate the effectiveness and the robustness of the proposed scheme. The research in this paper may help to maintain the secure operation of power systems. 相似文献
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