中文摘要：

采用水热法合成3个新的Mn（11）配合物[Mn（SO4）（H2O）3]n（1），【Mnzs（HPO4）（PO4）（H2O）2]n（2），【Mn（phen）2（H2O）2】·（C4H4O4）·4H2O（3）（phen=1，10-邻二氮杂菲）．用X射线单晶衍射、表面光电压光谱（SPS）、红外光谱（IR）、紫外-可见吸收光谱（UV-Vis）、电子顺磁共振谱（EPR）对配合物进行了表征．结构解析表明：配合物1是具有2D结构的配合物，氢键将其连接成3D超分子：配合物2是具有3D无限结构的配合物：配合物3是单核配合物，再由多种氢键连接，形成3D超分子．SPS结果表明，3个配合物在300—800nm范围内都呈现明显的光伏响应，表明它们均具有一定的光-电转换性能．讨论了配合物结构，空间维度和中心金属离子配位环境的不同对配合物表面光电性能的影响以及SPS与UV-Vis的关联：配合物的结构维度越高、规则性越好。SPS响应强度越大：中心金属离子的直接配位原子种类的不同、所处外晶场的强弱不同，SPS响应带的数目和位置明显不同．

英文摘要：

Three Mn（Ⅱ） complexes [Mn（SO4）（H2O）3]n（1）,【Mnzs（HPO4）（PO4）（H2O）2]n（2）,【Mn（phen）2（H2O）2】·（C4H4O4）·4H2O（3） （phen=1,10-phenanthroline） were synthesized by a hydrothermal method and characterized by infrared spectrum （IR）, ultraviolet-visible spectrum （UV-Vis）, electron paramagnetic resonance spectrum （EPR）, single crystal X-ray diffraction and surface photovoltage spectrum （SPS）. The structural analyses indicate that complex 1 is a 2D coordination polymer and hydrogen bonds link the polymer to a 3D infinite structure. Complex 2 is a 3D coordination polymer. Complex 3 is a mononuclear complex and diverse hydrogen bonds connect the complex to the 3D supramolecule. SPS results indicate that the three complexes exhibit obvious surface photovoltage responses between 300-800 nm, which reveals that they possess a definite photoelectric conversion property. The structure of the complex, its dimensions and the coordination environment of the central metal affect obviously SPS： the intensity of the surface photovoltage （SPV） response bands become larger with increasing of dimensions and regularity of structure; differences in the species of direct coordination atoms and the strength of the crystal field around the central metal ions lead to the change of number and position of the response bands. Additionally, the association between SPS and UV-Vis were discussed.