Physical properties of transition metal complexes in single-molecule junctions

被引:0
|
作者
Duan, Ping [1 ]
Song, Zi-Qi [1 ]
Li, Ming-Liang [2 ]
Jia, Chuan-Cheng [1 ]
Guo, Xue-Feng [1 ,3 ]
机构
[1] Nankai Univ, Inst Modern Opt,Coll Elect Informat & Opt Engn, Coll Elect Informat & Opt Engn,Tianjin Key Lab Mic, Ctr Single Mol Sci,Frontiers Sci Ctr New Organ Mat, Tianjin 300350, Peoples R China
[2] Univ Hong Kong, Dept Chem, Hong Kong 999077, Peoples R China
[3] Peking Univ, Coll Chem & Mol Engn, Natl Biomed Imaging Ctr, Beijing Natl Lab Mol Sci, Beijing 100871, Peoples R China
来源
RARE METALS | 2025年
基金
国家重点研发计划; 中国国家自然科学基金;
关键词
Transition metal complexes; d-orbital electrons; Single-molecule devices; Physical properties; Spin; ELECTRONIC-STRUCTURE; OPTICAL-PROPERTIES; ROOM-TEMPERATURE; LEVEL ALIGNMENT; CHARGE-TRANSFER; LIGAND-FIELD; CONDUCTANCE; PERFORMANCE; RECTIFICATION; TRANSPORT;
D O I
10.1007/s12598-024-03127-4
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Transition metal possesses a unique d-orbital electronic structure, which imparts a diverse range of physical and chemical properties. These properties render them significant in fields such as chemistry and materials science. The distinctive optical, electrical, and magnetic properties of these complexes can be attributed to the variations in the quantity of d-orbital electrons, thereby influencing their spin and orbital characteristics. The d-orbitals facilitate the formation of stable multidirectional bonds with ligands, resulting in a variety of geometric structures and rich coordination chemistry. These interactions result in variations in energy levels, thereby producing diverse electrical properties, including low attenuation coefficients, high rectification ratios, and unique multi-channel transmission. Moreover, the unpaired electrons in the d-orbitals can give rise to diverse magnetic behaviors, leading to magnetic effects such as spin-related interfaces, switches, and magnetoresistance. This paves the way for extensive possibilities in the design and application of single-molecule devices. This review elaborates on single-molecule physical properties of transition metal complexes, including length attenuation, rectification, multi-channel transmission, thermoelectric effect, and spin regulation, which are vital for the functionalization and regulation of molecular electronics. In addition, this review also explores the correlation between these physical properties and the electronic structure of transition metals, discussing the broad prospects of transition metal complexes in the fields of nanoelectronics, optoelectronics, and quantum technology. d (sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic).(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic).(sic)(sic)d (sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic), (sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic),(sic)(sic)(sic)(sic)(sic)(sic)(sic).d (sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic), (sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic).(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic), (sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic), (sic)(sic)(sic)(sic)(sic)(sic)(sic),(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic).(sic)(sic), d (sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic), (sic)(sic)(sic)(sic)(sic),(sic)(sic)(sic)(sic)(sic)(sic).(sic)(sic)(sic)(sic),(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic) (sic)(sic)(sic)(sic)(sic)(sic).(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic), (sic)(sic)(sic)(sic)(sic)(sic),(sic)(sic),(sic)(sic)(sic)(sic)(sic),(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic), (sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic).(sic)(sic), (sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic), (sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic),(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic)(sic).
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