Behavior of Constitutional Dynamic Networks: Competition, Selection, Self-sorting in Cryptate Systems

Dr. Artem Osypenko, Dr. Rafel Cabot, Dr. Joseph J. Armao IV, Dr. Petr Kovaříček, Prof. Antonio Santoro, Prof. Jean-Marie Lehn
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Abstract

Understanding dynamic systems is a crucial step toward the design of complex matter. Here, we aim to study the behavior of Constitutional Dynamic Networks (CDNs) in conditions of dynamic competition, taking cryptands and metal cations as a test bed. The CDNs of cryptates were analyzed by NMR spectroscopy. The experimental results were complemented by extensive numerical simulations, based on a large amount of thermodynamic and kinetic data available in the literature for cryptates. Although the CDN′s output is a result of the interplay between the individual stability constants of the complexes in a mixture, the overall effect may be governed by only one – the most thermodynamically stable member of a network. Significantly, these findings indicate that an increase in complexity (multiplicity and connectivity) of a system may, in conditions of dynamic competition, result in “simplexity”, i. e. a simplification of the output of the system.

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宪政动态网络的行为:密码体制中的竞争、选择、自排序
理解动态系统是设计复杂物质的关键一步。在这里,我们以密码带和金属阳离子为试验台,研究了在动态竞争条件下宪法动态网络(CDNs)的行为。用核磁共振波谱分析了隐窝产物的CDNs。实验结果得到了广泛的数值模拟的补充,该模拟基于文献中关于密码子的大量热力学和动力学数据。尽管CDN的输出是混合物中复合物的单个稳定常数之间相互作用的结果,但总体效应可能仅由一个网络中热力学最稳定的成员控制。值得注意的是,这些发现表明,在动态竞争的条件下,系统复杂性(多样性和连通性)的增加可能导致“简单性”,即。 e.系统输出的简化。
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