Site-Selective Photoswitching of Two Distinct Magnetic Chromophores in a Propeller-Like Molecule To Achieve Four Different Magnetic States

Mirosław Arczyński; Jan Stanek; Barbara Sieklucka; Kim R. Dunbar; Dawid Pinkowicz

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Site-Selective Photoswitching of Two Distinct Magnetic Chromophores in a Propeller-Like Molecule To Achieve Four Different Magnetic States

机译：螺旋桨状分子中两个不同磁性发色团的位点选择性光开关，以实现四个不同的磁性态

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Magnetic photoswitching is a highly important but relatively rare phenomenon for enabling optical writing/reading of the magnetic state of a molecule. In this work, an unprecedented site-selective double photoswitching is reported from the assembly of two different “photomagnetic chromophores” into a single hexanuclear molecule: namely, a spin-crossover Fe(II) center exhibiting light-induced excited spin state trapping (LIESST) and a photochemically active octacyanometalate(IV) unit. Four different magnetization levels are accessible through the appropriate combination of violet/red light and temperature, results that highlight the potential of photomagnetic molecules as future molecular memory cells.

机译：磁性光电开关是非常重要的但相对罕见的现象，用于实现光学写入/读取分子的磁性状态。在这项工作中，通过将两个不同的“光生色团”组装成单个六核分子，据报道发生了前所未有的位点选择性双光开关：即自旋交叉Fe（II）中心表现出光诱导的激发自旋态俘获（LIESST））和具有光化学活性的十八烷基金属酸盐（IV）单元。通过适当地组合紫罗兰色/红色光和温度可以达到四种不同的磁化强度，结果突出了光磁分子作为未来分子存储单元的潜力。

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来源
《Journal of the American Chemical Society》 |2019年第48期|19067-19077|共11页
作者
Mirosław Arczyński; Jan Stanek; Barbara Sieklucka; Kim R. Dunbar; Dawid Pinkowicz;
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作者单位

Jagiellonian University Faculty of Chemistry Gronostajowa;

Marian Smoluchowski Institute of Physics Jagiellonian University;

Department of Chemistry Texas AM University;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
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正文语种 eng
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入库时间 2022-08-18 04:58:35

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7. Site-Selective Photoswitching of Two Distinct Magnetic Chromophores in a Propeller-Like Molecule To Achieve Four Different Magnetic States [O] . -1

机译：位于螺旋桨状分子中的两个不同磁发色团的场地选择性的照片，以达到四种不同的磁力状态

Site-Selective Photoswitching of Two Distinct Magnetic Chromophores in a Propeller-Like Molecule To Achieve Four Different Magnetic States

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