双层分子纳米石墨烯与[60]和[70]富勒烯的全碳超分子络合作用。

All-carbon supramolecular complexation of a bilayer molecular nanographene with [60] and [70]fullerenes.

作者信息

Buendía Manuel, Stasyuk Anton J, Filippone Salvatore, Solà Miquel, Martín Nazario

机构信息

Departamento de Química Orgánica I, Facultad de Ciencias Químicas, Universidad Complutense de Madrid Av. Complutense S/N 28040 Madrid Spain

Institut de Quimica Computacional i Catàlisi (IQCC) and Departament de Química, Universitat de Girona M. Aurèlia Capmany 69 17003 Girona Spain

出版信息

Org Chem Front. 2024 Dec 24;12(5):1438-1443. doi: 10.1039/d4qo02071e. eCollection 2025 Feb 25.

DOI:10.1039/d4qo02071e

PMID:39790361

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11706225/

Abstract

Supramolecular chemistry of carbon-based materials provides a variety of chemical structures with potential applications in materials science and biomedicine. Here, we explore the supramolecular complexation of fullerenes C and C, highlighting the ability of molecular nanographene tweezers to capture these structures. The binding constant for the CNG-1⊃C complex was significantly higher than for CNG-1⊃C, showing a clear selectivity for the more π-extended C. DFT calculations confirmed these experimental results by showing that the interaction energy of C with CNG-1 is more than 5 kcal mol higher than that of C. Theoretical calculations predict that the dispersion interaction provides about 58-59% of the total interaction energy, followed by electrostatic attraction with 26% and orbital interactions, which contribute 15-16%. The racemic nanographene tweezers effectively recognize fullerene molecules and hold promise for future applications in chiral molecule recognition.

摘要

碳基材料的超分子化学提供了多种化学结构，在材料科学和生物医学领域具有潜在应用。在此，我们探索富勒烯C和C的超分子络合作用，突出分子纳米石墨烯镊子捕获这些结构的能力。CNG-1⊃C络合物的结合常数显著高于CNG-1⊃C，对π扩展程度更高的C表现出明显的选择性。密度泛函理论计算通过表明C与CNG-1的相互作用能比C的相互作用能高5千卡/摩尔以上，证实了这些实验结果。理论计算预测，色散相互作用约占总相互作用能的58 - 59%，其次是静电吸引占26%，轨道相互作用占15 - 16%。外消旋纳米石墨烯镊子能有效识别富勒烯分子，并有望在未来的手性分子识别中得到应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/729b/11706225/b727116d61a6/d4qo02071e-f1.jpg

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双层分子纳米石墨烯与[60]和[70]富勒烯的全碳超分子络合作用。

All-carbon supramolecular complexation of a bilayer molecular nanographene with [60] and [70]fullerenes.

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