National Synchrotron Radiation Research Center , Hsinchu, 30076, Taiwan.
Department of Chemical Engineering, National Tsing Hua University , Hsinchu 30013, Taiwan.
ACS Nano. 2018 Jan 23;12(1):836-843. doi: 10.1021/acsnano.7b08223. Epub 2018 Jan 8.
Ultrathin two-dimensional (2D) polymeric layers are capable of separating gases and molecules based on the reported size exclusion mechanism. What is equally important but missing today is an exploration of the 2D layers with charge functionality, which enables applications using the charge exclusion principle. This work demonstrates a simple and scalable method of synthesizing a free-standing 2D coordination polymer Zn(benzimidazolate)(OH) at the air-water interface. The hydroxyl (-OH) groups are stoichiometrically coordinated and implement electrostatic charges in the 2D structures, providing powerful functionality as a charge barrier. Electrochemical performance of the Li-S battery shows that the Zn(benzimidazolate)(OH) coordination polymer layers efficiently mitigate the polysulfide shuttling effects and largely enhance the battery capacity and cycle performance. The synthesis of the proposed coordination polymeric layers is simple, scalable, cost saving, and promising for practical use in batteries.
超薄二维(2D)聚合物层能够根据报道的尺寸排阻机制分离气体和分子。同样重要但今天仍缺失的是对具有电荷功能的 2D 层的探索,这使得能够应用电荷排阻原理。这项工作展示了一种在气-水界面上合成独立式 2D 配位聚合物 Zn(苯并咪唑)(OH)的简单且可扩展的方法。羟基(-OH)基团以化学计量的方式配位,并在 2D 结构中实现静电电荷,为作为电荷屏障提供了强大的功能。Li-S 电池的电化学性能表明,Zn(苯并咪唑)(OH)配位聚合物层有效地抑制了多硫化物穿梭效应,并大大提高了电池的容量和循环性能。所提出的配位聚合物层的合成简单、可扩展、节省成本,有望在电池中实际应用。
