Is a High Photoluminescence Quantum Yield Good Enough for OLEDs? Can Luminescence Rigidochromism Be Manifest in the Solid State? an Optoelectronic Device Screening Case Study for Diphosphine/Pyrazolate Copper(I) Complexes

IF 3.8 3区 化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR Comments on Inorganic Chemistry Pub Date : 2020-01-02 DOI:10.1080/02603594.2019.1701448
M. Omary, John J. Determan, Chammi S. Palehepitiya Gamage, P. Sinha, Shan Li, Monika R. Patterson, Vladimir N. Nestero, A. Wilson, H. V. Rasika Dias
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引用次数: 6

Abstract

ABSTRACT This paper provides a 4th manifestation of a new tradition by which the editors of Comments on Inorganic Chemistry wish to lead by example, whereby we start publishing original research content that, nonetheless, preserves the Journal’s identity as a niche for critical discussion of contemporary literature in inorganic chemistry. (For the 1st, 2nd and 3rd manifestations, see: a) Otten, B. M.; Melancon, K. M.; Omary, M. A. “All That Glitters is Not Gold: A Computational Study of Covalent vs Metallophilic Bonding in Bimetallic Complexes of d10 Metal Centers – A Tribute to Al Cotton on the 10th Anniversary of His Passing,” Comments Inorg. Chem. 2018, 38, 1–35; b) Yaseen, W. K.; Sanders, S. F.; Almotawa, R. M.; Otten, B. M.; Bhat, S.; Alamo, D. C.; Marpu, S. B.; Golden, T. D.; Omary, M. A. “Are Metal Complexes “Organic”, “Inorganic”, “Organometallic”, or “Metal-Organic” Materials? A Case Study for the Use of Trinuclear Coinage Metal Complexes as “Metal-Organic Coatings” for Corrosion Suppression on Aluminum Substrates”, Comments Inorg. Chem. 2019, 39, 1–26; and c) Smith, J. B.; Otten, B. M.; Derry, P. J.; Browning, C.; Bodenstedt, K. W.; Sandridge, J. H.; Satumtira, N. T.; Zilaie, M.; Payne, J.; Nuti, R.; Omary, M. A.; Smucker, B. W. “Luminescent, Redox-Active (Dithiolato)Bis(Imine)Platinum(II) Divergent Complexes with Exchangeable Imine Ligands: An Experimental/Computational Study versus Their (Diimine)(Dithiolato)Platinum(II) Convergent Congeners”, Comments Inorg. Chem. 2019, 39, 188–215.) Herein, the dinuclear complexes {Cu[3,5-(CF3)2Pz](µ-dppm)}2 and {Cu[3,5-(CF3)2Pz](µ-dppm)}2•3THF were studied structurally, spectroscopically and via density functional theory (DFT). They were synthesized by reacting bis(diphenylphosphino)methane (dppm) with the cyclic trinuclear complex {μ-[3,5-(CF3)2Pz]Cu}3 to effect nuclearity reduction. Two forms of crystalline solids, {Cu[3,5-(CF3)2Pz](µ-dppm)}2 and {Cu[3,5-(CF3)2Pz](µ-dppm)}2•3THF have been obtained using different recrystallization conditions. The {Cu[3,5-(CF3)2Pz](µ-dppm)}2 complex was found through DFT computations to undergo a distortion from a Y-shaped coordination sphere in the S0 ground state toward a T-shape in the T1 photoexcited, lowest-lying, phosphorescent state. The distortion also causes the copper-copper bond length to contract and form an excimer bond (dCu-Cu = 2.577 Å). Experimentally, the presence of THF in the crystal was found to cause a blue shift, effecting a change in emission color from teal to blue to the naked eye, with a near-unity quantum yields (93%), rendering the latter solid suitable for inorganic LED applications but not OLEDs, as thin films exhibit a reduced quantum yield. Crystallographic evidence suggests that THF leads to a more compact lattice that makes the complexes more rigid and thus hinder the excited state distortions vs unsolvated crystals. Greater distortion leads to a lower energy radiative emission and thus a red shift in the emission color. Films were also studied and found to undergo further red shifting as a result of less rigidity in the media and more surface molecules susceptible to distortion, hence manifesting the luminescence rigidochromism optical phenomenon in the solid state as opposed to the traditional manifestation in frozen vs fluid solution. Photobleaching was studied in both the film and powder to assess photostability, which was superior in neat vs doped solids, which is also favorable for LED applications. Graphical Abstract
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高光致发光量子产率对oled来说足够好吗?固态中会出现发光刚色吗?二膦/吡唑酸铜(I)配合物光电器件筛选案例研究
本文提供了新传统的第四种表现形式,《无机化学评论》的编辑们希望以此为榜样,由此我们开始发表原创研究内容,尽管如此,保留了该杂志作为无机化学当代文学批判性讨论的利基的身份。(关于第一,第二和第三表现,见:a) Otten, b.m.;梅兰康,k.m.;“所有闪光的不是黄金:d10金属中心双金属配合物的共价与亲金键的计算研究——纪念Al Cotton逝世10周年”,Inorg评论。化学,2018,38,1-35;b)亚辛,w.k.;桑德斯,s.f.;阿尔莫塔瓦,r.m.;奥顿,b.m.;Bhat,美国;阿拉莫,哥伦比亚特区;马普,s.b.;金,t.d.;金属配合物是“有机”、“无机”、“有机金属”还是“金属-有机”材料?三核合成金属配合物作为“金属-有机涂层”在铝基板上抑制腐蚀的案例研究,评论Inorg。化学,2019,39,1-26;c)史密斯,j.b.;奥顿,b.m.;p·j·德里;布朗宁,c;博登施泰特,k.w.;桑德里奇,j.h.;Satumtira, n.t.t;Zilaie m;佩恩,j .;Nuti r;玛丽,文学硕士;Smucker, B. W.“发光,氧化还原活性(双硫胺)双(亚胺)铂(II)发散配合物与可交换亚胺配体:与(二亚胺)(双硫胺)铂(II)收敛同族物的实验/计算研究”,评论Inorg。化学,2019,39,188-215。)本文通过密度泛函理论(DFT)对双核配合物{Cu[3,5-(CF3)2Pz](µ-dppm)}2和{Cu[3,5-(CF3)2Pz](µ-dppm)}2•3THF进行了结构、光谱研究。它们是由双(二苯基膦)甲烷(dppm)与环三核配合物{μ-[3,5-(CF3)2Pz]Cu}3反应而合成的。在不同的再结晶条件下,得到了两种形式的结晶固体:{Cu[3,5-(CF3)2Pz](µ-dppm)}2和{Cu[3,5-(CF3)2Pz](µ-dppm)}2•3THF。通过DFT计算发现,{Cu[3,5-(CF3)2Pz](µ-dppm)}2配合物经历了从s基态的y形配位球到T1光激发最低磷光态的t形配位球的畸变。这种变形还导致铜-铜键长度收缩并形成准分子键(dCu-Cu = 2.577 Å)。实验发现,晶体中THF的存在导致蓝移,影响肉眼从蓝绿色到蓝色的发射颜色变化,具有接近统一的量子产率(93%),使得后者固体适合无机LED应用,但不适合oled,因为薄膜表现出降低的量子产率。晶体学证据表明,THF导致更紧凑的晶格,使配合物更刚性,从而阻碍激发态扭曲,而不是未溶剂化的晶体。较大的失真导致较低的能量辐射发射,从而导致发射颜色的红移。我们还研究了薄膜,发现由于介质的刚性更小,表面分子更容易变形,薄膜会发生进一步的红移,因此在固态中表现出发光刚性变色光学现象,而不是传统的在冷冻或流体溶液中的表现。在薄膜和粉末中进行了光漂白研究,以评估光稳定性,这在纯固体中优于掺杂固体,这也有利于LED应用。图形抽象
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来源期刊
Comments on Inorganic Chemistry
Comments on Inorganic Chemistry 化学-无机化学与核化学
CiteScore
9.00
自引率
1.90%
发文量
18
审稿时长
>12 weeks
期刊介绍: Comments on Inorganic Chemistry is intended as a vehicle for authoritatively written critical discussions of inorganic chemistry research. We publish focused articles of any length that critique or comment upon new concepts, or which introduce new interpretations or developments of long-standing concepts. “Comments” may contain critical discussions of previously published work, or original research that critiques existing concepts or introduces novel concepts. Through the medium of “comments,” the Editors encourage authors in any area of inorganic chemistry - synthesis, structure, spectroscopy, kinetics and mechanisms, theory - to write about their interests in a manner that is both personal and pedagogical. Comments is an excellent platform for younger inorganic chemists whose research is not yet widely known to describe their work, and add to the spectrum of Comments’ author profiles, which includes many well-established inorganic chemists.
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