Charge Transfer Induced Multifunctional Transitions with Sensitive Pressure 
Manipulation in a Metal-Organic Framework

Yang, Junye; Zhou, Long; Cheng, Jinguang; Hu, Zhiwei; Kuo, Changyang; Pao, Chih-Wen; Jang, Lingyun; Lee, Jyh-Fu; Dai, Jianhong; Zhang, Sijia; Feng, Shaomin; Kong, Panpan; Yuan, Zhen; Yuan, Jie; Uwatoko, Yoshiya; Liu, Tao; Jin, Changqing; Long, Youwen

doi:10.1021/acs.inorgchem.5b00739

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Charge Transfer Induced Multifunctional Transitions with Sensitive Pressure Manipulation in a Metal-Organic Framework

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Hu, Zhiwei
Zhiwei Hu, Physics of Correlated Matter, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Kuo, Changyang
Physics of Correlated Matter, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Zitation

Yang, J., Zhou, L., Cheng, J., Hu, Z., Kuo, C., Pao, C.-W., et al. (2015). Charge Transfer Induced Multifunctional Transitions with Sensitive Pressure Manipulation in a Metal-Organic Framework. Inorganic Chemistry, 54(13), 6433-6438. doi:10.1021/acs.inorgchem.5b00739.

Zitierlink: https://hdl.handle.net/11858/00-001M-0000-0028-5017-C

Zusammenfassung

The metal-organic framework {[Fe(2,2'-bipyridine)(CN)(4)](2)Co-(4,4'-bipyridine)}center dot 4H(2)O (Fe2Co-MOF) with single-chain magnetism undergoes an intermetallic charge transfer that converts the Fe2Co charge/spin configurations from Fe-LS(3+)-Co-HS(2+)-Fe-LS(3+) to Fe-LS(2+)-Co-LS(3+)-Fe-LS(3+) (LS = low spin, HS = high spin) around 220 K under ambient pressure. A series of coherent phase transitions in structure, magnetism, permittivity and ferroelectricity are found to take place accompanying with the charge transfer, making Fe2Co-MOF a unique ferroelectric single-chain magnet at low temperature. Moreover, our detailed measurements of magnetization, dielectric constant, and Raman scattering under high pressures illustrate that the charge transfer as well as the resulting multifunctional transitions can be readily induced to occur at room temperature by applying a tiny external pressure of about 0.5 kbar. The present study thus provides a pressure well-controllable multifunctional material with potential applications in a broad temperature region across room temperature.