TY - JOUR
T1 - Supramolecular Complexes of C80-Based Metallofullerenes with [12]Cycloparaphenylene Nanoring and Altered Property in a Confined Space
AU - Zhao, Chong
AU - Meng, Haibing
AU - Nie, Mingzhe
AU - Wang, Xiang
AU - Cai, Zhenfeng
AU - Chen, Ting
AU - Wang, Dong
AU - Wang, Chunru
AU - Wang, Taishan
N1 - Publisher Copyright:
© 2019 American Chemical Society.
PY - 2019/5/16
Y1 - 2019/5/16
N2 - Metallofullerenes have a cage-shaped molecular structure and special properties derived from encapsulated metal atoms. Owing to the ball-like fullerene cage, it is still a challenge to manipulate the metallofullerene molecule and to control its properties. Herein, we use the molecular carbon nanoring of [12]cycloparaphenylene to hoop the C80-based metallofullerene Y3N@C80 and azafullerene Y2@C79N, resulting in a stable supramolecular complex, induced molecule orientation, changed assembly behavior, and tunable spin state. These supramolecular complexes and their host-guest interactions were systematically characterized by DFT-calculations, spectroscopy, NMR, and electrochemical analysis. Scanning tunneling microscopy was employed to reveal that the metallofullerene guests dominate the assembly process on the Au(111) surface and the [12]CPP nanoring can change the weak van der Waals forces and influence self-assembly. Moreover, the electron spin in paramagnetic Y2@C79N was employed to percept the host-guest interaction, and it showed anisotropic spin-metal couplings due to its insufficient rotational averaging in a confined space of the nanoring. The special spin character of Y2@C79N⊂[12]CPP was also investigated in its solid state, and it exhibits the independent spin of Y2@C79N separated by a nanoring. This study provides a strategy to hoop the ball-like C80-based metallofullerenes and modulate their electronic and magnetic properties using a circular nanoring. Metal-induced orientation, self-assembly characters, and susceptible electron spin for these supramolecular complexes reveal a great significance in molecule science and nanotechnology.
AB - Metallofullerenes have a cage-shaped molecular structure and special properties derived from encapsulated metal atoms. Owing to the ball-like fullerene cage, it is still a challenge to manipulate the metallofullerene molecule and to control its properties. Herein, we use the molecular carbon nanoring of [12]cycloparaphenylene to hoop the C80-based metallofullerene Y3N@C80 and azafullerene Y2@C79N, resulting in a stable supramolecular complex, induced molecule orientation, changed assembly behavior, and tunable spin state. These supramolecular complexes and their host-guest interactions were systematically characterized by DFT-calculations, spectroscopy, NMR, and electrochemical analysis. Scanning tunneling microscopy was employed to reveal that the metallofullerene guests dominate the assembly process on the Au(111) surface and the [12]CPP nanoring can change the weak van der Waals forces and influence self-assembly. Moreover, the electron spin in paramagnetic Y2@C79N was employed to percept the host-guest interaction, and it showed anisotropic spin-metal couplings due to its insufficient rotational averaging in a confined space of the nanoring. The special spin character of Y2@C79N⊂[12]CPP was also investigated in its solid state, and it exhibits the independent spin of Y2@C79N separated by a nanoring. This study provides a strategy to hoop the ball-like C80-based metallofullerenes and modulate their electronic and magnetic properties using a circular nanoring. Metal-induced orientation, self-assembly characters, and susceptible electron spin for these supramolecular complexes reveal a great significance in molecule science and nanotechnology.
UR - http://www.scopus.com/inward/record.url?scp=85065873674&partnerID=8YFLogxK
U2 - 10.1021/acs.jpcc.9b02451
DO - 10.1021/acs.jpcc.9b02451
M3 - Article
AN - SCOPUS:85065873674
SN - 1932-7447
VL - 123
SP - 12514
EP - 12520
JO - Journal of Physical Chemistry C
JF - Journal of Physical Chemistry C
IS - 19
ER -