具有不同结构单元空间排列的融合芳香网络

Materials Engineering eJournal Pub Date : 2021-04-01 DOI:10.2139/ssrn.3817756

Seok-Jin Kim, T. Kim, Ishfaq Ahmad, Hyuk‐Jun Noh, Sun-Min Jung, Yoon-Kwang Im, Javeed Mahmood, Youn‐Sang Bae, Jong‐Beom Baek

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引用次数: 0

摘要

二维(2D)融合芳香网络(FANs)具有平面结构，其中平面构建块水平连接以形成优化的分层π-π堆叠。三维(3D) FAN结构，其中的建筑块在空间中分散连接，提供了最大的可访问的内部表面积和永久孔隙。作为吸附剂，扇形材料的受限层状堆积模式限制了扇形材料的节段运动;可用的表面积部分被相邻的层阻挡，导致相对较差的吸收动力学和容量。为了了解结构与吸附剂性能之间的关系，设计并合成了一种新型的FAN结构，该结构单元沿生长方向垂直站立连接，以最大限度地减少层间相互作用，最大限度地提高段自由度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fused Aromatic Networks with the Different Spacial Arrangement of Structural Units

Two-dimensional (2D) fused aromatic networks (FANs) have a planar structure, in which planar building blocks are horizontally connected to form optimized, layered π-π stacking. Three-dimensional (3D) FAN structures, in which building blocks are divergently linked in the space, provide the maximum accessible internal surface area with permanent porosity. As sorbent materials, the confined layered stacking pattern of FANs restricts segmental motion; the available surface area is partially blocked by adjacent layers, resulting in relatively poor uptake kinetics and capacity. To understand the relationship between structure and sorbent performance, a new type of FAN structure with vertically standing structural units connected along the growth direction was designed and synthesized to minimize layer-to-layer interactions and maximize segmental freedom.

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Materials Engineering eJournal

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