Department of Industrial Chemistry, Tokyo University of Science, 1-3 Kagurazaka, Shinjuku-ku, Tokyo 162-8601, Japan.
Langmuir. 2013 Feb 5;29(5):1669-75. doi: 10.1021/la304925e. Epub 2013 Jan 24.
A series of long-chain amidoamine derivatives with different alkyl chain lengths (CnAA where n is 12, 14, 16, or 18) were synthesized and studied with regard to their ability to form organogels and to act as soft templates for the production of Au nanomaterials. These compounds were found to self-assemble into lamellar structures and exhibited gelation ability in some apolar solvents. The gelation concentration, gel-sol phase transition temperature, and lattice spacing of the lamellar structures in organic solvent all varied on the basis of the alkyl chain length of the particular CnAA compound employed. The potential for these molecules to function as templates was evaluated through the synthesis of Au nanowires (NWs) in their organogels. Ultrathin Au NWs were obtained from all CnAA/toluene gel systems, each within an optimal temperature range. Interestingly, in the case of C12AA and C14AA, it was possible to fabricate ultrathin Au NWs at room temperature. In addition, two-dimensional parallel arrays of ultrathin Au NWs were self-assembled onto TEM copper grids as a result of the drying of dispersion solutions of these NWs. The use of CnAA compounds with differing alkyl chain lengths enabled precise tuning of the distance between the Au NWs in these arrays.
一系列具有不同烷基链长的长链酰胺胺衍生物(CnAA,其中 n 是 12、14、16 或 18)被合成并研究了它们形成有机凝胶的能力以及作为生产 Au 纳米材料的软模板的作用。这些化合物被发现可以自组装成层状结构,并在一些非极性溶剂中表现出凝胶化能力。凝胶浓度、凝胶-溶胶相转变温度以及有机溶剂中层状结构的晶格间距均根据所使用的特定 CnAA 化合物的烷基链长度而变化。通过在其有机凝胶中合成 Au 纳米线(NWs)来评估这些分子作为模板的潜力。从所有 CnAA/甲苯凝胶体系中都获得了超细长的 Au NWs,每个体系都在最佳温度范围内。有趣的是,对于 C12AA 和 C14AA,有可能在室温下制造超细长的 Au NWs。此外,由于这些 NWs 的分散溶液的干燥,二维平行排列的超细长 Au NWs 自组装到 TEM 铜网格上。使用具有不同烷基链长的 CnAA 化合物可以精确调整这些阵列中 Au NWs 之间的距离。
