Wagner Amy M, Strohecker Sarah A, Costello Elizabeth K, Rood Jeffrey A, Kneas Kristi A
Department of Chemistry & Biochemistry, Elizabethtown College, One Alpha Drive, Elizabethtown, PA, 17022, USA.
J Fluoresc. 2016 Nov;26(6):2271-2280. doi: 10.1007/s10895-016-1923-z. Epub 2016 Sep 23.
Osmium transition metal complexes are of particular interest in luminescence-based sensing applications because of their longer wavelength absorptions and emissions, relative to similar ruthenium and rhenium complexes, that allow for inexpensive excitation and minimize interferences from autofluorescence when the sensor is used in biological samples. Reported here are the photophysical properties of a series of water-soluble osmium complexes suitable for use in hydrogel-based sensors: [Os(bpy)(sulf-dpp)]Cl, [Os(phen)(sulf-dpp)]Cl, [Os(dpp)(sulf-dpp)]Cl, and [Os(CO)Cl(sulf-dpp)], where bpy is 2,2'-bipyridine, phen is 1,10-phenanthroline, dpp is 4,7-diphenyl-1,10-phenanthroline, and sulf-dpp is bathophenanthrolinedisulfonic acid disodium salt. The family of complexes showed minimal oxygen quenching, making them particularly well-suited for sensing applications in which oxygen concentration varies. Luminescence anisotropy was found to depend more significantly on net dipole moment than hydrodynamic radius of the molecule, and, as expected, excited state lifetime and luminescence anisotropy were highly dependent on the local environment of the reporter molecule. Results obtained for hydrogel-based relative humidity sensors containing [Os(CO)Cl(sulf-dpp)] and [Os(bpy)(sulf-dpp)]Cl complexes highlight the significant potential for this class of compounds in a hydrogel-supported luminescence-based sensing approach.
锇过渡金属配合物在基于发光的传感应用中特别受关注,因为相对于类似的钌和铼配合物,它们具有更长波长的吸收和发射,这使得激发成本低廉,并且当传感器用于生物样品时能将自发荧光的干扰降至最低。本文报道了一系列适用于水凝胶基传感器的水溶性锇配合物的光物理性质:[Os(bpy)(sulf-dpp)]Cl、[Os(phen)(sulf-dpp)]Cl、[Os(dpp)(sulf-dpp)]Cl和[Os(CO)Cl(sulf-dpp)],其中bpy是2,2'-联吡啶,phen是1,10-菲咯啉,dpp是4,7-二苯基-1,10-菲咯啉,sulf-dpp是二磺酸二钠浴菲咯啉。该系列配合物显示出最小的氧猝灭,使其特别适合于氧浓度变化的传感应用。发现发光各向异性更多地取决于分子的净偶极矩而非流体动力学半径,并且正如预期的那样,激发态寿命和发光各向异性高度依赖于报告分子的局部环境。含有[Os(CO)Cl(sulf-dpp)]和[Os(bpy)(sulf-dpp)]Cl配合物的水凝胶基相对湿度传感器所获得的结果突出了这类化合物在水凝胶支持的基于发光的传感方法中的巨大潜力。