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Mechanistic Insight into Bis(amino) Copper Formate Thermochemistry for Conductive Molecular Ink Design

格式化 热化学 墨水池 导电体 纳米技术 化学 导电油墨 材料科学 无机化学 化学工程 有机化学 冶金 催化作用 复合材料 薄板电阻 工程类 图层(电子)
作者
Homin Shin,Xiangyang Liu,Thomas Lacelle,Ryan J. MacDonell,Michael S. Schuurman,Patrick R. L. Malenfant,Chantal Paquet
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:12 (29): 33039-33049 被引量:23
标识
DOI:10.1021/acsami.0c08645
摘要

Increasing attention has been given to amine–copper formate complexes for their use as low-cost printable conductive inks. The structure of amine ligands coordinated to copper centers has been reported to dictate the properties of copper molecular inks, such as stability and printability, thereby influencing the copper reduction pathway during the thermolysis. Yet, the underlying mechanism by which formate is oxidized when complexed with amine ligands is still not fully understood. Here, we propose a mechanistic pathway of copper formate dehydrogenation and decarboxylation and examine the critical role that amine ligands play in their thermal decomposition by employing first-principles electronic structure computations and experimental analyses of thermolysis reactions. Based on the computational characterization of the relevant reaction pathways for a number of primary and secondary amines as well as pyridine ligand complexes, we are the first to show that the hydrogen bonds formed between the amine ligand and formate are the key factors governing the activation energy, providing a design principle for the synthesis of organic ligands that can tune the height of the reaction barriers of the dehydrogenation and decarboxylation reactions. The calculations, confirmed by NMR studies, show that the reduction of Cu(II) to Cu(I) occurs in concert with the release of H2 via the dimerization of Cu(II) hydride. This result suggests that the monomeric elimination of H2 is not favorable for the Cu(II) to Cu(I) reduction and thus identifies dimeric amino copper formate as an important intermediate for copper reduction whose thermodynamic stabilities are also dictated by the nature of the amine ligands.
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