Ito Wataru, Hattori Shingo, Kondo Mio, Sakagami Hiroki, Kobayashi Osamu, Ishimoto Takayoshi, Shinozaki Kazuteru
Department of Materials Science, Graduate School of Nanobioscience, Yokohama City University, 22-2 Seto, Kanazawa-ku, Yokohama 236-0027, Japan.
Dalton Trans. 2021 Feb 9;50(5):1887-1894. doi: 10.1039/d1dt00021g.
Ir(tpy)23 (tpy = 2,2':6',2''-terpyridine) dissolved in CH3CN was found to exhibit dual color luminescent emission depending on the excitation wavelength. Specifically, blue and green emissions were obtained with excitation at 350 and 410 nm, respectively. Because the associated emission spectra were consistent with those of [Ir(tpy)2]Cl3 in water and Ir(tpy)23 in the crystalline state, respectively, this dual emission is attributed to emissions from the [Ir(tpy)2]3+ cation and its ion pair [Ir(tpy)2]3+·PF6-. The emission is assigned to the 3π-π* transition of the ligands based on time-dependent density functional theory (TD-DFT) calculations. Conversely, [Ir(tpy)2]I3 in CH3CN shows emission due to [Ir(tpy)2]3+ but not [Ir(tpy)2]3+·I-, while crystalline [Ir(tpy)2]I3 emits red luminescence at 77 K that is inconsistent with that from [Ir(tpy)2]3+. Since the emission energies of crystalline [Ir(tpy)2]X3 (X- = Cl-, Br- or I-) show a good correlation with the electron affinity of X, the emissions are assigned to a counter anion to complex ion charge-transfer transition. This hypothesis is supported by TD-DFT calculations regarding [Ir(tpy)2]3+·X-.
发现溶解于乙腈中的Ir(tpy)₂₃(tpy = 2,2':6',2''-三联吡啶)根据激发波长呈现双色发光发射。具体而言,分别在350和410 nm激发下获得蓝色和绿色发射。由于相关发射光谱分别与水中的[Ir(tpy)₂]Cl₃和结晶态的Ir(tpy)₂₃的发射光谱一致,这种双色发射归因于[Ir(tpy)₂]³⁺阳离子及其离子对[Ir(tpy)₂]³⁺·PF₆⁻的发射。基于含时密度泛函理论(TD-DFT)计算,该发射被指定为配体的³π-π*跃迁。相反,乙腈中的[Ir(tpy)₂]I₃显示出由于[Ir(tpy)₂]³⁺而非[Ir(tpy)₂]³⁺·I⁻产生的发射,而结晶态的[Ir(tpy)₂]I₃在77 K下发射红色发光,这与[Ir(tpy)₂]³⁺的发光不一致。由于结晶态的[Ir(tpy)₂]X₃(X⁻ = Cl⁻、Br⁻或I⁻)的发射能量与X的电子亲和力显示出良好的相关性,这些发射被指定为络合离子到抗衡阴离子的电荷转移跃迁。关于[Ir(tpy)₂]³⁺·X⁻的TD-DFT计算支持了这一假设。
