项目名称: 硫化物/贵金属核壳结构光热转换材料的调控合成及其光热转换增强机制研究
项目编号: No.51472134
项目类型: 面上项目
立项/批准年度: 2015
项目学科: 一般工业技术
项目作者: 吴大雄
作者单位: 青岛科技大学
项目金额: 83万元
中文摘要: 硫化物/贵金属核壳结构材料对光热转换具有显著的增强作用,在肿瘤的光热治疗方面具有良好的应用前景。但目前缺乏对硫化物/贵金属核壳结构材料光热转换增强机制这一科学问题的研究,阻碍了硫化物/贵金属核壳结构光热转换材料的理论研究及应用开发。为此,本项目以硫化物和贵金属金、银组成的核壳结构为研究对象,采用活性模板法调控合成具有不同组成及壳厚的核壳结构光热转换材料,并研究组成及壳厚等因素对光热转换特性的影响规律;基于能量守恒原则,研究光能向热能及其他形式能量转化的能量分配以及相互消长的规律;结合金属表面等离子体共振效应和电子能带结构等相关理论,探讨硫化物/贵金属核壳结构中光生载流子的产生及能量转换机制,着重研究核壳界面处发生的相互作用及耦合增强效应;通过实验研究和理论计算结合,揭示硫化物/贵金属核壳结构材料的光热转换增强机制这一科学问题,对光热转换新材料的研究开发具有重要的理论和实际意义。
中文关键词: 硫化物;核壳结构;光热转换;增强机制;调控合成
英文摘要: Sulfide-noble metal core-hell structure materials have significant photothermal conversion enhancement effect and thus have promising applications in the photothermal therapy of tumor sells. However, the current lack of photothermal conversion enhancement mechanism hinders the theoretic research and development of sulfide-noble metal core-shell structure photothermal conversion materials. In this project, core-shell structure photothermal conversion materials of different composition and shell thickness are synthesized through an active template-interfacial reaction method, with core-shell structures made up of sulfides and noble metals including Ag and Au as research object. The influences of composition and shell thickness on the photothermal properties of the core-shell structures are investigated. The conversion of light energy to heat energy and other energy forms, as well as energy distribution and mutual growth and decline between different energy forms, are studied based on the principle of energy conservation. The generation and energy transform mechanism of the photo-generated carriers in the core-shell structures are studied by combining the related theories including metal surface plasmon resonance effect theory and electron band-structure theory. The coupling enhancement effects on the interface of the core-shell structures are emphatically studied. To reveal the scientific problem of the mechanism for photothermal conversion enhancement of the sulfide-noble metal core-shell structures based on the systematic study of photothermal conversion property is of theoretical and practical significance for the research and development of new photothermal conversion material.
英文关键词: Sulfide;Core-shell structures;Photothermal conversion;Enhancement machanism;Controlled synthesis