Dinuclear platinum(ii) complexes featuring rigidly linked Pt(NCN)X units: the effect of X = SCN− in favouring low-energy, excimer-like luminescence†

IF 2.7 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
Rebecca J. Salthouse, Yana M. Dikova, Marc K. Etherington and J. A. Gareth Williams
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Abstract

Interfacial intermolecular interactions between phosphorescent, square-planar, cyclometallated platinum(II) complexes may lead to the formation of bimolecular excited states that emit at lower energy than the isolated complexes in dilute solution. We study compounds in which two Pt(NCN)Cl units are appended onto a rigid xanthene scaffold to favour the intramolecular formation of such states and thus promote low-energy emission even at high dilution {where NCN represents a cyclometallated tridentate ligand based on 2,6-di(2-pyridyl)benzene}. Here, we show how the metathesis of the monodentate Cl ligand to thiocyanate SCN has a profound effect on the emissive properties of such compounds in solution and in polymer-doped and neat films. Intramolecular Pt⋯Pt interactions are promoted by the change to SCN (as evident by a short Pt⋯Pt distance of 3.253(4) Å in the crystal, determined by X-ray diffraction). This increased propensity for the Pt(NCN) units to interact, induced by the thiocyanate, is also manifest in the emission spectra: the spectra show only the low-energy, excimer-like bands in solution, even at very low concentrations. That contrasts with the appearance of emission bands typical both of isolated Pt(NCN) units and of excimers for the chloro parent compound. Nevertheless, data at low temperature and in dilute polymer-doped films suggest that some degree of conformational change is still required to form the low-energy emitting states. Meanwhile, the change of the monodentate ligand from chloride to iodide suppresses the formation of the low-energy-emitting states and lowers the emission efficiency. Taken together, the results offer new insight into strategies for obtaining efficient NIR-emitting phosphors based on dinuclear PtII2 excited states.

Abstract Image

以刚性连接的 Pt(NCN)X 单元为特征的双核铂(ii)配合物:X = SCN- 对低能量、准分子类发光的影响†。
磷光方形环金属化铂(II)络合物之间的表面分子间相互作用可能导致双分子激发态的形成,这种激发态在稀释溶液中的发射能量低于孤立的络合物。我们研究了在刚性氧杂蒽支架上附加两个 Pt(NCN)Cl 单元的化合物,这种化合物有利于双分子内激发态的形成,从而即使在高稀释度下也能促进低能量发射{其中 NCN 代表基于 2,6-二(2-吡啶基)苯的环金属化三叉配体}。在此,我们展示了单齿型 Cl- 配体与硫氰酸盐 SCN- 的偏析如何对此类化合物在溶液、聚合物掺杂和纯薄膜中的发射特性产生深远影响。分子内的 Pt⋯Pt 相互作用因变为 SCN- 而得到促进(通过 X 射线衍射测定,晶体中的 Pt⋯Pt 间距为 3.253(4)埃)。硫氰酸盐引起的 Pt(NCN)单元相互作用倾向的增加也体现在发射光谱中:即使在浓度很低的情况下,光谱也只显示溶液中的低能激发光谱带。这与孤立的铂(NCN)单元和氯母体化合物的激发子的典型发射带形成了鲜明对比。然而,在低温下和掺杂聚合物的稀薄薄膜中的数据表明,要形成低能发射态,仍然需要一定程度的构象变化。同时,单价配体从氯化物变为碘化物会抑制低能发射态的形成,并降低发射效率。综上所述,这些结果为基于双核 PtII2 激发态获得高效近红外发射荧光粉的策略提供了新的见解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
New Journal of Chemistry
New Journal of Chemistry 化学-化学综合
CiteScore
5.30
自引率
6.10%
发文量
1832
审稿时长
2 months
期刊介绍: A journal for new directions in chemistry
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