We observed morphological modification of rod-shaped C60 solvate crystals using a facile hydrothermal method.The initial C60 rods were changed from smooth rods to rough rods,porous rods or pieces under different hydro...We observed morphological modification of rod-shaped C60 solvate crystals using a facile hydrothermal method.The initial C60 rods were changed from smooth rods to rough rods,porous rods or pieces under different hydrothermal conditions.During the hydrothermal treatment,the initial samples underwent a decomposition-recrystallization process,which can be tuned by the content of alcohol in the hydrothermal solution,thereby leading to modification of the morphological properties of the initial C60 rods.In addition,the rough and porous C60 rods prepared in our work exhibit excellent photoluminescence intensities that are approximately 7 and 3 times higher than those of pure C60 powders,respectively.Our results suggest that the hydrothermal method is a potential route for fabricating fullerene materials with controllable morphologies and novel functions.展开更多
In this paper, we investigate the Raman and photoluminescence spectra of Y_2O_3/Eu^(3+) and Y_2O_3/Eu^(3+)/Mg^(2+) nanorods under high pressures using 514-nm and 532-nm laser light excitation. We observe tran...In this paper, we investigate the Raman and photoluminescence spectra of Y_2O_3/Eu^(3+) and Y_2O_3/Eu^(3+)/Mg^(2+) nanorods under high pressures using 514-nm and 532-nm laser light excitation. We observe transitions from the initial cubic phase to amorphous at pressures higher than 24 GPa for both Y_2O_3/Eu^(3+) and Y_2O_3/Eu^(3+)/Mg^(2+) nanorods. In addition, Y_2O_3/Eu^(3+) and Y_2O_3/Eu^(3+)/Mg^(2+) nanorods exhibit different distorted states after the pressure has been raised to 8 GPa. The analyses of intensity ratios, I_(0-2)/I_(0-1) from ~5D_(0–)~7F2_to^5D_(0–)~7F_1and I_(0-2)A/B of ~5D_(0–)7F_2 transitions indicate that Y_2O_3/Eu^(3+)/Mg^(2+) nanorods exhibit stronger local micro-surrounding characteristics for Eu^(3+) ions in a pressuremodulated crystal field. The doped Mg2+ion results in reducing the crystal ionicity in the distorted lattice state under high pressures. The use of doped ions as an ion modifier can be applied to the study of small local microstructural changes through Eu^(3+) luminescence.展开更多
基金Project supported by the National Natural Science Foundation of China(Grant Nos.11804384,51802343,and 51772326)the Fundamental Research Funds for the Central Universities,China(Grant No.3122018L006)+2 种基金the Scientific Research Project of Tianjin Education Commission(Grant No.2019ZD19)the National Natural Science Foundation of China and the Civil Aviation Administration of China(Grant No.U1933109)Open Project of State Key Laboratory of Superhard Materials(Jilin University)(Grant No.201803).
文摘We observed morphological modification of rod-shaped C60 solvate crystals using a facile hydrothermal method.The initial C60 rods were changed from smooth rods to rough rods,porous rods or pieces under different hydrothermal conditions.During the hydrothermal treatment,the initial samples underwent a decomposition-recrystallization process,which can be tuned by the content of alcohol in the hydrothermal solution,thereby leading to modification of the morphological properties of the initial C60 rods.In addition,the rough and porous C60 rods prepared in our work exhibit excellent photoluminescence intensities that are approximately 7 and 3 times higher than those of pure C60 powders,respectively.Our results suggest that the hydrothermal method is a potential route for fabricating fullerene materials with controllable morphologies and novel functions.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.11304380,11404241,11275138,11604240,and 51320105007)the Program for Changjiang Scholars and Innovative Research Team in University,China(Grant No.IRT1132)
文摘In this paper, we investigate the Raman and photoluminescence spectra of Y_2O_3/Eu^(3+) and Y_2O_3/Eu^(3+)/Mg^(2+) nanorods under high pressures using 514-nm and 532-nm laser light excitation. We observe transitions from the initial cubic phase to amorphous at pressures higher than 24 GPa for both Y_2O_3/Eu^(3+) and Y_2O_3/Eu^(3+)/Mg^(2+) nanorods. In addition, Y_2O_3/Eu^(3+) and Y_2O_3/Eu^(3+)/Mg^(2+) nanorods exhibit different distorted states after the pressure has been raised to 8 GPa. The analyses of intensity ratios, I_(0-2)/I_(0-1) from ~5D_(0–)~7F2_to^5D_(0–)~7F_1and I_(0-2)A/B of ~5D_(0–)7F_2 transitions indicate that Y_2O_3/Eu^(3+)/Mg^(2+) nanorods exhibit stronger local micro-surrounding characteristics for Eu^(3+) ions in a pressuremodulated crystal field. The doped Mg2+ion results in reducing the crystal ionicity in the distorted lattice state under high pressures. The use of doped ions as an ion modifier can be applied to the study of small local microstructural changes through Eu^(3+) luminescence.