Li Zhongjing, Sun Wenfang
Department of Chemistry and Biochemistry, North Dakota State University, Fargo, ND 58108-6050, USA.
Dalton Trans. 2013 Oct 14;42(38):14021-9. doi: 10.1039/c3dt51430g. Epub 2013 Aug 12.
The synthesis of ligands 1-L-6-L that feature the 6-[9,9-di(2-ethylhexyl)-7-R-9H-fluoren-2-yl]-2,2'-bipyridine (C^N^N) core (R = 4-R'-phenylethynyl with R' = NO2, benzothiazol-2-yl (BTZ), H and OCH3 or R = 4'-BTZ-phenyl or BTZ) and their platinum complexes 1-6 were reported in this paper. The photophysical properties of these ligands and the Pt(II) complexes, including the UV-vis absorption spectra, emission characteristics at room temperature and at 77 K, and the triplet transient difference absorption spectra, were systematically investigated in order to understand the effects of the substituent at the 4-position of the 1-ethynylphenyl component and the extension of π-conjugation between the C^N^N core and the BTZ substituent. Reverse saturable absorption (RSA) of complexes 1-6 was demonstrated at 532 nm using 4.1 ns laser pulses. The UV-vis absorption spectra of 1-L-6-L are featured by strong (1)π,π* transitions in the blue spectral region, and the absorption bands are effectively red-shifted by substitution at the 4-position of the ethynylphenyl motif and by the extended π-conjugation of the linkage. A similar effect was observed for the fluorescence spectra of these ligands in CH2Cl2 at room temperature, but the nature of the fluorescence varies from (1)π,π* fluorescence in 3-L and 6-L, to intraligand charge transfer ((1)ILCT) fluorescence in 1-L, 2-L and 5-L; while 4-L possesses mixed (1)π,π*/(1)ILCT characters. All ligands exhibit moderate triplet transient absorption (TA) in the visible spectral region, with substitution at the 4-position of the ethynylphenyl component broadening of the TA bands, while extended π-conjugation of the linkage inducing red-shifts of the TA bands. For Pt(II) complexes 1-6, their UV-vis absorption spectra constitute red-shifted (1)π,π* transitions and low-energy metal-to-ligand charge transfer ((1)MLCT/(1)ILCT) tails. The emission of these complexes at room temperature in CH2Cl2 predominantly originates from the C^N^N core localized (3)π,π* state, probably mixed with minor (3)MLCT character. 4-Position substitution and extended π-conjugation on the ligands exert a negligible effect on the shape and energy of the emission spectra. Similar to their respective ligands, 1-6 all exhibit broader and red-shifted TA spectra with respect to their ligands and both the 4-position substitution and extended π-conjugation bathochromically shift the TA band maxima. The nonlinear transmission experiments carried out for 1-6 at 532 nm reveal that all complexes exhibit strong reverse saturable absorption (RSA), and the degree of RSA follows this trend: 6 <4 <5 <2 ≤3 <1. The RSA performance is efficiently improved by electron-withdrawing substituents (NO2 and BTZ) and by extending the π-conjugation; while electron-donating substituent (OCH3 in 4) decreases the RSA at 532 nm.
本文报道了具有6-[9,9-二(2-乙基己基)-7-R-9H-芴-2-基]-2,2'-联吡啶(C^N^N)核(R = 4-R'-苯乙炔基,其中R' = NO2、苯并噻唑-2-基(BTZ)、H和OCH3或R = 4'-BTZ-苯基或BTZ)的配体1-L-6-L及其铂配合物1-6的合成。为了了解1-乙炔基苯基部分4位取代基和C^N^N核与BTZ取代基之间π共轭扩展的影响,系统研究了这些配体和Pt(II)配合物的光物理性质,包括紫外可见吸收光谱、室温及77 K下的发射特性以及三重态瞬态差分吸收光谱。使用4.1 ns激光脉冲在532 nm处证明了配合物1-6的反饱和吸收(RSA)。1-L-6-L的紫外可见吸收光谱的特征是在蓝色光谱区域有强烈的(1)π,π跃迁,并且通过乙炔基苯基基团4位的取代以及连接的π共轭扩展,吸收带有效地发生红移。在室温下于CH2Cl2中对这些配体的荧光光谱也观察到类似的效果,但荧光的性质有所不同,从3-L和6-L中的(1)π,π荧光,到1-L、2-L和5-L中的配体内电荷转移((1)ILCT)荧光;而4-L具有混合的(1)π,π*/(1)ILCT特征。所有配体在可见光谱区域均表现出适度的三重态瞬态吸收(TA),乙炔基苯基部分4位的取代使TA带变宽,而连接的π共轭扩展导致TA带红移。对于Pt(II)配合物1-6,它们的紫外可见吸收光谱由红移的(1)π,π跃迁和低能量的金属到配体电荷转移((1)MLCT/(1)ILCT)尾部组成。这些配合物在室温下于CH2Cl2中的发射主要源自C^N^N核局域化的(3)π,π态,可能混合有少量的(3)MLCT特征。配体上的4位取代和π共轭扩展对发射光谱的形状和能量影响可忽略不计。与它们各自的配体类似,1-6相对于其配体均表现出更宽且红移的TA光谱,并且4位取代和π共轭扩展均使TA带最大值发生红移。在532 nm处对1-6进行的非线性传输实验表明,所有配合物均表现出强烈的反饱和吸收(RSA),并且RSA程度遵循以下趋势:6 <4 <5 <2 ≤3 <1。吸电子取代基(NO2和BTZ)以及π共轭扩展有效地提高了RSA性能;而供电子取代基(4中的OCH3)降低了532 nm处的RSA。
