Exploring and exploiting intermolecular bonding in heavy p-block metals

探索和利用重p区金属中的分子间键合

• 批准号: 261444-2008
• 负责人: Briand, Glen
• 金额: $ 1.82万
• 依托单位: Mount Allison University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2009
• 资助国家: 加拿大
• 起止时间: 2009-01-01 至 2010-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=426611
• 关键词: Exploring; exploiting; intermolecular; bonding; heavy

The primary goal of this research program is the advancement of the relatively underdeveloped synthetic and structural chemistry of a class of heavy metals, known as the heavy p-block metals. This is being achieved through the preparation and characterization of series of compounds which systematically highlight heavy metal chemical bonding interactions. Over the past number of years, interest in organometallic compounds incorporating heavy p-block metals has grown due to their utility as precursors for advanced production of inorganic materials with specific electronic properties, such as low band-gap semiconductor thin films (InP) and nanoparticles (PbS), and high temperature superconductors thin films (TlBaCaCuO). We are developing methods to manipulate the structural chemistry of heavy p-block metal compounds, which is essential for the preparation of precursors with specific bulk properties (e.g. increased solubility, high volatility, efficient mass transport) required for advanced inorganic materials processing. This work is also significant to several other areas of fundamental and applied chemistry, namely: 1) synthetic inorganic/organometallic chemistry, in the development of facile routes to novel heavy p-block metal compounds; 2) supramolecular chemistry, through incorporation of heavy p-block metals into interesting self-assembled frameworks; and 3) catalysis, through the preparation of cationic bismuth compounds which are potentially reactive toward organic compounds. The long-term goals of this research program involve investigating the application of target compounds to these areas.

该研究计划的主要目标是推进一类重金属（称为重p区金属）的相对欠发达的合成和结构化学。 这是通过一系列化合物的制备和表征来实现的，这些化合物系统地突出了重金属的化学键合相互作用。 在过去的几年中，由于有机金属化合物作为具有特定电子性质的无机材料（例如低带隙半导体薄膜（InP）和纳米颗粒（PbS）以及高温超导体薄膜（TlBaCaCuO））的先进生产的前体的实用性，对掺入重p区金属的有机金属化合物的兴趣已经增长。 我们正在开发方法来操纵重p-区金属化合物的结构化学，这对于制备具有先进无机材料加工所需的特定本体性质（例如增加的溶解度，高挥发性，有效的质量传输）的前体至关重要。 这一工作对基础化学和应用化学的其他几个领域也有重要意义，即：1）合成无机/有机金属化学，开发新的p-区重金属化合物的简便途径; 2）超分子化学，通过将p-区重金属引入有趣的自组装框架中;和3）催化，通过制备对有机化合物具有潜在反应性的阳离子铋化合物。 该研究计划的长期目标包括研究目标化合物在这些领域的应用。