卤化物对 X-Au-L 配合物升华温度的影响：在气相沉积方法中作为前体的应用。

Halide Effects on the Sublimation Temperature of X-Au-L Complexes: Implications for Their Use as Precursors in Vapor Phase Deposition Methods.

机构信息

Department of Chemistry, University of Florida , Gainesville, Florida 32611-7200, United States.

出版信息

ACS Appl Mater Interfaces. 2017 Nov 22;9(46):40998-41005. doi: 10.1021/acsami.7b12465. Epub 2017 Nov 9.

Abstract

Trends in volatility with changes in the halide ligand were established for gold(I) complexes of the type X-Au-L [X = Cl, Br, I; L = CNBu, CNMe, PMe, P(NMe), P(OCHCF)] by determining the temperatures for the onset of sublimation (T) at a fixed pressure. Within each series of isocyanide complexes, T decreases with increasing atomic radius of the halide, making the iodide complex the most volatile. For the phosphine and phosphoramidate complexes, the chloride and bromide have similar T values with the bromide slightly higher, but the iodide complex is again the most volatile of the three. The trends in volatility can be correlated to variation in Au-Au bond distances and aggregation patterns in the solid state structures. For the P(OCHCF) complexes, melting occurred before sublimation, but the iodide complex was still more volatile than the bromide. These trends have implications for the use of these complexes in electron beam induced deposition and chemical vapor deposition, for which precursor volatility is important.

摘要

通过在固定压力下测定升华起始温度（T），确定了卤化物配体变化时金（I）配合物 X-Au-L [X = Cl、Br、I；L = CNBu、CNMe、PMe、P(NMe)、P(OCHCF)]的波动趋势。在每个系列的异氰化物配合物中，T 随卤化物原子半径的增加而降低，使得碘化物配合物最易挥发。对于膦和磷酰胺配合物，氯和溴具有相似的 T 值，溴的稍高，但碘化物配合物仍然是三种配合物中最易挥发的。挥发性趋势可以与固态结构中 Au-Au 键距离和聚集模式的变化相关联。对于 P(OCHCF)配合物，在升华之前发生了熔融，但碘化物配合物仍然比溴化物更易挥发。这些趋势对于这些配合物在电子束诱导沉积和化学气相沉积中的应用具有重要意义，因为前体的挥发性很重要。

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卤化物对 X-Au-L 配合物升华温度的影响：在气相沉积方法中作为前体的应用。

Halide Effects on the Sublimation Temperature of X-Au-L Complexes: Implications for Their Use as Precursors in Vapor Phase Deposition Methods.

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