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Sr∶BaF_2中的F型色心的电子结构及转型机理研究 被引量:3
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作者 陈军 林理彬 +2 位作者 张晋 何维 卢勇 《人工晶体学报》 EI CAS CSCD 北大核心 1999年第3期233-238,共6页
本文运用嵌入原子簇的电荷自洽离散变分方法( D V M Xα方法) 分别对 Sr∶ Ba F2 晶体中 F, F+和 F A[ Sr2 + ] 心的能级结构进行了计算,得到了 F, F+ 和 F A[ Sr2 + ] 心的光学吸收跃迁模... 本文运用嵌入原子簇的电荷自洽离散变分方法( D V M Xα方法) 分别对 Sr∶ Ba F2 晶体中 F, F+和 F A[ Sr2 + ] 心的能级结构进行了计算,得到了 F, F+ 和 F A[ Sr2 + ] 心的光学吸收跃迁模式,其跃迁能量分别是1 .91e V,1 .89e V,2 .13e V。我们认为,经电子辐照后的 Sr∶ Ba F2 晶体,在光吸收实验中测到的640nm(1 .94e V) ,840nm(2 .15e V) 两个峰分别是由于电子辐照过程中形成的 F 和 F A[ Sr2 + ] 心的吸收峰,在光诱导下并存在着 F→ F A[ Sr2 + ] 心的可逆转换过程。本文的计算结果合理地解释了实验所观测到的现象。 展开更多
关键词 F型 色心 氟化钡晶体 光致转型 电子结构
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Sr∶BaF_2晶体电子辐照诱生F型色心及其转型研究
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作者 张晋 林理彬 +3 位作者 蒋仕级 陈军 刘梅 林理忠 《人工晶体学报》 EI CAS CSCD 北大核心 1998年第4期28-32,共5页
测试和分析了Sr∶BaF2晶体电子辐照前后以及辐照着色的样品光致转型过程的吸收谱。研究结果表明,能量为1.5MeV和1.8MeV的电子束对Sr∶BaF2晶体的辐照注量达1015~1016cm-2时,诱生FH对、F心... 测试和分析了Sr∶BaF2晶体电子辐照前后以及辐照着色的样品光致转型过程的吸收谱。研究结果表明,能量为1.5MeV和1.8MeV的电子束对Sr∶BaF2晶体的辐照注量达1015~1016cm-2时,诱生FH对、F心及其与杂质的复合色心。用波长为632.8nm的HeNe激光照射电子辐照着色的样品,可使F心转型成FA(Sr2+)心;再用钠光(589.0,589.6nm)照射,又可将FA(Sr2+)心部分回转成F心。 展开更多
关键词 Sr∶BaF2晶体 电子辐照 F-H对 F心及其复合色心FA(Sr2+) 光致转型
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Construction of Type I Aggregation-Induced Emission Photosensitizers for Photodynamic Therapy via Photoinduced Electron Transfer Mechanism
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作者 Jia Hanyu Yu Yuewen +1 位作者 Feng Guangxue Tang Ben Zhong 《有机化学》 SCIE CAS CSCD 北大核心 2024年第8期2530-2537,共8页
Photodynamic therapy(PDT)as a non-invasive anticancer modality has received increasing attention due to its advantages of noninvasiveness,high temporospatial selectivity,simple and controllable operation,etc.PDT mainl... Photodynamic therapy(PDT)as a non-invasive anticancer modality has received increasing attention due to its advantages of noninvasiveness,high temporospatial selectivity,simple and controllable operation,etc.PDT mainly relies on the generation of toxic reactive oxygen species(ROS)by photosensitizers(PSs)under the light irradiation to cause cancer cell apoptosis and death.However,solid tumors usually exhibit an inherent hypoxic microenvironment,which greatly limits the PDT efficacy of these high oxygen-dependent conventional type II PSs.Therefore,it is of great importance to design and develop efficient type I PSs that are less oxygen-dependent for the treatment of hypoxic tumors.Herein,a new strategy for the preparation of efficient type I PSs by introducing the photoinduced electron transfer(PET)mechanism is reported.DR-NO_(2) is obtained by introducing 4-nitrobenzyl to(Z)-2-(5-(4-(diethylamino)-2-hydroxybenzylidene)-4-oxo-3-phenylthiazolidin-2-ylidene)malononitrile(DR-OH)with aggregation-induced emission(AIE)feature.The AIE feature ensures their high ROS generation efficiency in aggregate,and the PET process leads to fluorescence quenching of DR-NO_(2) to promote triplet state formation,which also promotes intramolecular charge separation and electron transfer that is conducive for type I ROS particularly superoxide radicals generation.In addition,DR-NO_(2) nanoparticles are prepared by nanoprecipitation to possess nanoscaled sizes,high cancer cell uptake,and excellent type I ROS generation ability,which results in an excellent performance in PDT ablation of MCF-7 cancer cells.This PET strategy for the development of type I PSs possesses great potential for PDT applications against hypoxic tumors. 展开更多
关键词 photodynamic therapy aggregation-induced emission photoinduced electron transfer type I photosensitizer hypoxic tumor microenvironment
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