Solid Eu(III) complexes studied by positron annihilation, optical and M?ssbauer spectroscopies: Insights on the positronium formation mechanism

Fulgêncio F.; De Oliveira F.C.; Ivashita F.F.; Paesano A.; Windm?ller D.; Marques-Netto A.; Magalh?es W.F.; MacHado J.C.

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Solid Eu(III) complexes studied by positron annihilation, optical and M?ssbauer spectroscopies: Insights on the positronium formation mechanism

机译：固体ron（III）配合物的正电子an没，光学和M？ssbauer光谱学研究：对正电子形成机理的见解

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In this work, positron annihilation lifetime (PALS), Doppler broadening annihilation radiation lineshape (DBARL), M?ssbauer and optical spectroscopies measurements were performed in Eu(III) dipivaloylmetanate complex, Eu(dpm) _3, at 295 and 80 K. The Eu(dpm) _3 complex is not luminescent at 298 K and does not form positronium. On the other hand, it is highly luminescent at 80 K, but still does not form positronium. The absence of positronium formation at 80 K cannot be explained by a ligand/metal charge transfer process. We found strong evidences that the electronic delocalization does not occur at both temperatures. Despite the M?ssbauer results being inconclusive regarding the Eu(III)/Eu(II) reduction hypothesis, previous results showing positronium formation in other Eu(III) complexes suggest that this process is not occurring. Thus, more studies are needed to explain the absence of positronium in Eu(III) complexes.

机译：在这项工作中，正电子an灭寿命（PALS），多普勒展宽的radiation灭辐射线形（DBARL），M？ssbauer和光谱学测量分别在295和80 K的Eu（III）二茂铁酸复合物Eu（dpm）_3中进行。 Eu（dpm）_3配合物在298 K时不发光，也不形成正电子。另一方面，它在80 K时具有高发光性，但仍不形成正电子。不能通过配体/金属电荷转移过程来解释在80 K下没有形成正电子。我们发现有力的证据表明，在两种温度下均不会发生电子离域。尽管Msssbauer结果对Eu（III）/ Eu（II）还原假设尚无定论，但先前的结果显示在其他Eu（III）配合物中形成正电子提示该过程并未发生。因此，需要更多的研究来解释Eu（III）配合物中不存在正电子。

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《Spectrochimica acta, Part A. Molecular and biomolecular spectroscopy 》 |2012年第null期| 共4页
作者
Fulgêncio F.; De Oliveira F.C.; Ivashita F.F.; Paesano A.; Windm?ller D.; Marques-Netto A.; Magalh?es W.F.; MacHado J.C.;
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正文语种 eng
中图分类光化学分析法（光谱分析法） ;
关键词
Europium; Lanthanide complexes; Luminescence; M?ssbauer; Positronium;

机译：镧系元素配合物;发光;Msssbauer;正电子;

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1. Solid Eu(III) complexes studied by positron annihilation, optical and M?ssbauer spectroscopies: Insights on the positronium formation mechanism [J] . Fulgêncio F., De Oliveira F.C., Ivashita F.F., Spectrochimica acta, Part A. Molecular and biomolecular spectroscopy . 2012 ,第Null期

机译：固体ron（III）配合物的正电子an没，光学和M？ssbauer光谱学研究：对正电子形成机理的见解
2. Evidence of the participation of electronic excited states in the mechanism of positronium formation in substitutional Tb_(1-X)Eu_x(dpm)_3 solid solutions studied by optical and positron annihilation spectroscopies [J] . Welington F. Magalhaes, Fernando Fulgencio, F. C. de Oliveira, Materials science forum . 2013 ,第期

机译：光学和正电子an没光谱研究电子取代态Tb_（1-X）Eu_x（dpm）_3固溶体中电子激发态参与形成正电子的机理
3. Evidence of the participation of electronic excited states in the mechanism of positronium formation in substitutional Tb_(1-x)Eu_x(dpm)3 solid solutions studied by optical and positron annihilation spectroscopies [J] . F. Fulgencio, F. C. de Oliveira, D. Windmoller Physical chemistry chemical physics: PCCP . 2012 ,第28期

机译：光学和正电子an没光谱研究取代Tb_（1-x）Eu_x（dpm）3固溶体中电子激发态参与正电子形成机理的证据
4. Evidence of the participation of electronic excited states in the mechanism of positronium formation in substitutional Tb_(1-x)Eu_x(dpm)3 solid solutions studied by optical and positron annihilation spectroscopies [C] . Welington F. Magalhaes, Fernando Fulgencio, F. C. de Oliveira, International workshop on positron and positronium chemistry . 2013

机译：电子激发态参与的证据表明，通过光学和正电子湮没光谱研究的替代TB_（1-x）EU_X（DPM）3固体溶液中的正向形成机制
5. Surface modification of 6H-silicon carbide under vacuum annealing studied by time of flight positron annihilation induced auger electron spectroscopy . [D] . Mukherjee, Saurabh. 2007

机译：飞行时间正电子an灭诱导的俄歇电子能谱研究了真空退火下6H-碳化硅的表面改性。
6. The chemical mechanism of beta-haematin formation studied by Mössbauer spectroscopy. [O] . P A Adams, T J Egan, D C Ross, 1996

机译：Mössbauer光谱研究了β-血红素形成的化学机理。
7. Evidence of the participation of electronic excited states in the mechanism of positronium formation in substitutional Tb1-xEux(dpm)(3) solid solutions studied by optical and positron annihilation spectroscopies [O] . Fulgencio F., Oliveira F. C. de, Windmoeller D., 2012

机译：光学和正电子an没光谱研究的替代Tb1-xEux（dpm）（3）固溶体中电子激发态参与正电子形成机理的证据
8. Positron Annihilation Ratio Spectroscopy (PsARS) Applied to Positronium Formation Studies [R] . Slaughter, R. C. 2010

机译：正电子湮没比光谱（psaRs）应用于正电子形成研究

Solid Eu(III) complexes studied by positron annihilation, optical and M?ssbauer spectroscopies: Insights on the positronium formation mechanism

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