自组装卟啉材料。

Self-organized porphyrinic materials.

作者信息

Drain Charles Michael, Varotto Alessandro, Radivojevic Ivana

机构信息

Department of Chemistry and Biochemistry, Hunter College and Graduate Center of the City University of New York, 695 Park Avenue, New York, New York 10065, USA.

出版信息

Chem Rev. 2009 May;109(5):1630-58. doi: 10.1021/cr8002483.

DOI:10.1021/cr8002483

PMID:19253946

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2681784/

Abstract

The self-assembly and self-organization of porphyrins and related macrocycles enables the bottom-up fabrication of photonic materials for fundamental studies of the photophysics of these materials and for diverse applications. This rapidly developing field encompasses a broad range of disciplines including molecular design and synthesis, materials formation and characterization, and the design and evaluation of devices. Since the self-assembly of porphyrins by electrostatic interactions in the late 1980s to the present, there has been an ever increasing degree of sophistication in the design of porphyrins that self-assemble into discrete arrays or self-organize into polymeric systems. These strategies exploit ionic interactions, hydrogen bonding, coordination chemistry, and dispersion forces to form supramolecular systems with varying degrees of hierarchical order. This review concentrates on the methods to form supramolecular porphyrinic systems by intermolecular interactions other than coordination chemistry, the characterization and properties of these photonic materials, and the prospects for using these in devices. The review is heuristically organized by the predominant intermolecular interactions used and emphasizes how the organization affects properties and potential performance in devices.

摘要

卟啉及相关大环化合物的自组装和自组织能够实现光子材料的自下而上制备，用于这些材料光物理的基础研究以及各种应用。这个快速发展的领域涵盖了广泛的学科，包括分子设计与合成、材料形成与表征以及器件的设计与评估。自20世纪80年代末通过静电相互作用实现卟啉的自组装至今，能够自组装成离散阵列或自组织成聚合物体系的卟啉设计越来越复杂。这些策略利用离子相互作用、氢键、配位化学和色散力来形成具有不同层次有序度的超分子体系。本综述集中于通过配位化学以外的分子间相互作用形成超分子卟啉体系的方法、这些光子材料的表征和性质，以及将其用于器件的前景。本综述按所使用的主要分子间相互作用进行启发式组织，并强调这种组织如何影响器件的性质和潜在性能。

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