Exerting control of self-assembly pathways via morphological switching and patterning in amino-acid-based benzene-1,3,5-tricarboxamide conjugates

IF 19.1 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Chem Pub Date : 2024-10-16 DOI:10.1016/j.chempr.2024.09.020
Aramballi J. Savyasachi, Oxana Kotova, Ena T. Luis, Amy D. Lynes, Shaun Mills, Sandra A. Bright, Gavin J. McManus, Matthias E. Möbius, D. Clive Williams, Robert Pal, John J. Boland, Thorfinnur Gunnlaugsson
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引用次数: 0

Abstract

Small structural changes to benzene-1,3,5-tricarboxamide (BTA) dictate its self-assembly behavior and morphological outcome. Functionalization with an α-amino acid close to the BTA core, which also possesses a terminal terpyridine (tpy) unit, led to a robust gel in the case of glycine, whereas monodisperse, solid microspheres formed in the case of alanine, phenylalanine, and leucine. The self-assembly pathways of the chiral and achiral BTAs are orthogonal and both microspheres and gel fibers independently assemble in the same medium. Further hierarchical self-assembly results upon addition of lanthanide ions (i.e., Eu(III) and Tb(III) that emit at long wavelengths with long excited-state lifetimes) that crosslink the microspheres through coordination, whereas coordination within the gel led to a change in morphology toward microspheres, as well as the formation of hierarchical superstructures. The chirality of the BTA influences helicity of the assembly and the resulting enantiomeric conformation around the lanthanides, evidenced by circularly polarized luminescence.

Abstract Image

通过氨基酸基苯-1,3,5-三甲酰胺共轭物的形态切换和图案化控制自组装途径
苯-1,3,5-三甲酰胺(BTA)的微小结构变化决定了其自组装行为和形态结果。用靠近 BTA 核心的 α- 氨基酸进行官能化(BTA 核心还具有一个末端的terpyridine (typy)单元)会导致甘氨酸形成坚固的凝胶,而丙氨酸、苯丙氨酸和亮氨酸则会形成单分散的固体微球。手性和非手性 BTA 的自组装途径是正交的,微球和凝胶纤维在同一介质中独立组装。加入镧系离子(即 Eu(III)和 Tb(III),它们的发射波长长、激发态寿命长)后,微球通过配位交联,而凝胶中的配位导致形态向微球转变,并形成分层超结构,从而进一步实现分层自组装。BTA 的手性影响了组装的螺旋性以及由此产生的围绕镧系元素的对映体构象,这一点可以通过圆偏振发光得到证明。
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来源期刊
Chem
Chem Environmental Science-Environmental Chemistry
CiteScore
32.40
自引率
1.30%
发文量
281
期刊介绍: Chem, affiliated with Cell as its sister journal, serves as a platform for groundbreaking research and illustrates how fundamental inquiries in chemistry and its related fields can contribute to addressing future global challenges. It was established in 2016, and is currently edited by Robert Eagling.
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