GRK 611: Design and Characterisation of Functional Materials

GRK 611：功能材料的设计和表征

• 批准号: 273033
• 金额: --
• 依托单位: Universität Hamburg
• 依托单位国家: 德国
• 项目类别: Research Training Groups
• 财政年份: 2001
• 资助国家: 德国
• 起止时间: 2000-12-31 至 2008-12-31
• 项目状态: 已结题
• 来源: https://gepris.dfg.de/gepris/projekt/273033?language=en
• 关键词: GRK; 611; Design; Characterisation; Functional

The working groups constituting the research training group resort from the subject areas chemistry, physics and mineralogy of the Hamburg University. These groups have defined as a common objective to jointly contribute to the research projects "particles on the nano scale, clusters and colloids", "functionalised surfaces", "structured solids", and "porous materials". In order to achieve this goal, a well established potential in synthetic (generation of nano particles, solid materials, molecular precursors, and surface chemistry) and analytic skills (such as scanning tunnel and atomic force microscopies, plasma emission and X-ray fluorescence spectrometries, photoelectron spectroscopies) within the contributing subject areas is employed to investigate a manifold of chemical and physical systems of discernable relevance for material science. Main research areas are nano-scaling, modification and functionalisation of surfaces and particles, structuring of meso- and macroscopic solids including those with internal surfaces (porous materials), and investigations of "molecular" and highly organised materials in order to create specific electrical, magnetic, catalytic and optical properties. Based on a plethora of joint meetings within discussion groups and workshops, a platform of high competence in material science has emerged, which is basis for further innovative and increasingly interlinked research projects.

组成研究培训小组的工作组来自汉堡大学的化学、物理和矿物学学科领域。这些小组已将共同为研究项目作出贡献的目标定义为“纳米尺度上的粒子、团簇和胶体”、“功能化表面”、“结构化固体”和“多孔材料”。为了实现这一目标，利用在合成(生成纳米颗粒、固体材料、分子前体和表面化学)和分析技能(如扫描隧道和原子力显微镜、等离子体发射和X射线荧光光谱、光电子光谱)方面的成熟潜力，研究与材料科学有明显相关性的各种化学和物理系统。主要研究领域是表面和粒子的纳米尺度、表面和粒子的改性和功能化、包括具有内部表面(多孔材料)的介观和宏观固体的结构，以及为创造特定的电、磁、催化和光学性能而研究的“分子”和高度组织化的材料。在讨论小组和研讨会内举行的大量联席会议的基础上，出现了一个材料科学领域的高能力平台，这是进一步创新和日益相互关联的研究项目的基础。