FT Pulsed EPR/Transient Quantum Spin Nutation Spectroscopy Applied to Inorganic High-Spin Systems and a High-Spin Polymer as Models for Organic Ferromagnets

Journal of the Spectroscopical Society of Japan Pub Date : 1994-10-31 DOI:10.5111/BUNKOU.43.280

Kazunobu Sato, D. Shiomi, T. Takui, K. Itoh, T. Kaneko, E. Tsuchida, H. Nishide

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引用次数: 23

Abstract

Electron spin transient nutation method based on pulsed EPR spectroscopy was for the first time exploited for the identification of effective molecular spin multiplicities of a quasi one-dimensional organic high-spin polymer, showing the effective molecular high, spins with the spin quantum number S>2 featured in the nutation spectra of the polymer. It was concluded that the polymer was characterized as the mixture of molecular high-spin assemblages, supporting that the results from the susceptibility measurements of the same polymer suggested the existence of high-spin assemblages with an average S=2. The pulsed EPR nutation spectroscopy was also applied to high-spin systems of Mn2+(S=5/2) and Cr3+(S=3/2) in MgO powder, demonstrating the inherent advantages of the nutation spectroscopy. Particularly, the nutation method showed that Cr3+ in MgO is located in lower symmetric environments distorted from octahedral symmetry. The nutation spectra for the Cr3+-doped MgO powder indicated the occurrence of multiple quantum transitions for S=3/2.

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傅立叶变换脉冲EPR/瞬态量子自旋章动光谱在无机高自旋体系和高自旋聚合物中的应用

首次利用基于脉冲EPR光谱的电子自旋瞬态章动方法对准一维有机高自旋聚合物的有效分子自旋多重度进行了鉴定，发现该聚合物的有效分子高自旋，自旋量子数S>2。结果表明，该聚合物具有分子高自旋组合的特征，支持同一聚合物的磁化率测量结果表明存在平均S=2的高自旋组合。脉冲EPR章动光谱还应用于MgO粉末中Mn2+(S=5/2)和Cr3+(S=3/2)的高自旋体系，证明了章动光谱的固有优势。特别是，章动方法表明，MgO中的Cr3+位于由八面体对称扭曲的低对称环境中。掺杂Cr3+的MgO粉末的章动光谱表明，在S=3/2时发生了多个量子跃迁。

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Journal of the Spectroscopical Society of Japan

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