Chiral π-Conjugated Double Helical Aminyl Diradical with the Triplet Ground State

IF 1.7 4区化学 Q3 CHEMISTRY, ORGANIC Synlett Pub Date : 2024-09-02 DOI:10.1055/a-2379-9406

Haoxin Guo, Andrzej Rajca

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Abstract

We describe effective development of the highly diastereoselective synthesis of double helical tetraamine 2-H₂-C₂ and propose a mechanism for its formation. The resolution of 2-H₂-C₂ is facilitated by a high racemization barrier of 43 kcal mol^–1 and it is implemented via either a chiral auxiliary or preparative supercritical fluid chromatography. This enables preparation of the first high-spin neutral diradical, with spin density delocalized within an enantiomeric double helical π-system. The presence of two effective 3-electron C–N bonds in the diradical leads to: (1) the triplet (S = 1) high-spin ground state with a singlet-triplet energy gap of 0.4 kcal mol^–1 and (2) the long half-life of up to 6 days in 2-MeTHF at room temperature. The diradical possesses a racemization barrier of at least 26 kcal mol^–1 in 2-MeTHF at 293 K and chiroptical properties, with an absorption anisotropy factor |g| ≈ 0.005 at 548 nm. These unique magnetic and optical properties of our diradical form the basis for the development of next-generation spintronic devices.

1 Introduction

2 Synthesis and Resolution of the C ₂-Symmetric Double Helical Tetraamine 2-H₂-C ₂

3 Synthesis and Characterization of Neutral High-Spin Aminyl Diradical 2^2• -C ₂

4 Conclusion

Abstract Image

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具有三重基态的手性π-共轭双螺旋氨酰基二旋体

我们介绍了高非对映选择性合成双螺旋四胺 2-H2-C2 的有效方法，并提出了其形成机理。43 kcal mol-1 的高消旋化阻垒促进了 2-H2-C2 的解析，并通过手性辅助剂或制备型超临界流体色谱法实现了解析。这样就能制备出第一种高自旋中性二维化合物，其自旋密度分散在对映体双螺旋 π 系统中。该二元对映体中存在两个有效的 3 电子 C-N 键，这导致：(1) 三重（S = 1）高自旋基态，单重-三重能隙为 0.4 kcal mol-1；(2) 在室温下于 2-MeTHF 中的半衰期长达 6 天。在 2-MeTHF 293 K 的条件下，该二元化合物的消旋化势垒至少为 26 kcal mol-1，并具有各向异性，在 548 nm 波长处的吸收各向异性系数 |g |≈ 0.005。我们的二维化合物所具有的这些独特的磁学和光学特性为开发下一代自旋电子器件奠定了基础。1 引言 2 C2 对称双螺旋四胺 2-H2-C2 的合成与解析 3 中性高旋氨酰二拉锥 22-C2 的合成与表征 4 结论

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来源期刊

Synlett 化学-有机化学

CiteScore

3.40

自引率

5.00%

发文量

369

审稿时长

1 months

期刊介绍： SYNLETT is an international journal reporting research results and current trends in chemical synthesis in short personalized reviews and preliminary communications. It covers all fields of scientific endeavor that involve organic synthesis, including catalysis, organometallic, medicinal, biological, and photochemistry, but also related disciplines and offers the possibility to publish scientific primary data.