Nickel-rich cathode materials are increasingly being applied in commercial lithium-ion batteries to realize higher specific capacity as well as improved energy density.However,low structural stability and rapid capaci...Nickel-rich cathode materials are increasingly being applied in commercial lithium-ion batteries to realize higher specific capacity as well as improved energy density.However,low structural stability and rapid capacity decay at high voltage and temperature hinder their rapid large-scale application.Herein,a wet chemical method followed by a post-annealing process is utilized to realize the surface coating of tantalum oxide on LiNi_(0.88)Mn_(0.03)Co_(0.09)O_(2),and the electrochemical performance is improved.The modified Li Ni_(0.88)Mn_(0.03)Co_(0.09)O_(2)displays an initial discharge capacity of~233 m Ah/g at0.1 C and 174 m Ah/g at 1 C after 150 cycles in the voltage range of 3.0 V–4.4 V at 45℃,and it also exhibits an enhanced rate capability with 118 m Ah/g at 5 C.The excellent performance is due to the introduction of tantalum oxide as a stable and functional layer to protect the surface of LiNi_(0.88)Mn_(0.03)Co_(0.09)O_(2),and the surface side reactions and cation mixing are suppressed at the same time without hampering the charge transfer kinetics.展开更多
Objective: to explore the expression and clinical value of CSF2RA in pan-cancer. Methods: the data was extracted from ONCOMINE, Human Protein Atlas and Kaplan Meier-plotter. The expression level of CSF2RA on cancer ti...Objective: to explore the expression and clinical value of CSF2RA in pan-cancer. Methods: the data was extracted from ONCOMINE, Human Protein Atlas and Kaplan Meier-plotter. The expression level of CSF2RA on cancer tissues and normal tissues, the relationship between CSF2RA and overall survival of cancer patients were analyzed, respectively. Results: CSF2RA mRNA was over-expressed on breast cancer, colorectal cancer, kidney cancer and liver cancer, and CSF2RA protein was over-expressed on melanoma. The expression level of CSF2RA was not associated with overall survival of cancer patients significantly. Conclusion: CSF2RA is over-expression on certain cancers and most immune cells, which maybe contributes to activation of immune system. The high expression of CSF2RA protein on melanoma is maybe associated with adverse outcome of application of GM-CSF.展开更多
One of the major hurdles of nickel-rich cathode materials for lithium-ion batteries is the low cycling stability,especially at high temperature and high voltage,originating from severe structural degradation,which mak...One of the major hurdles of nickel-rich cathode materials for lithium-ion batteries is the low cycling stability,especially at high temperature and high voltage,originating from severe structural degradation,which makes this class of cathode less practical.Herein,we compared the effect of single and dual ions on electrochemical performance of high nickel(LiNi_(0.88)Mn_(0.03)Co_(0.09)O_(2),NMC)cathode material in different temperatures and voltage ranges.The addition of a few amounts of tantalum(0.2 wt%)and boron(0.05 wt%)lead to improved electrochemical performance.The co-modified Li Ni_(0.88)Mn_(0.03)Co_(0.09)O_(2)displays an initial discharge capacity of 234.9 m Ah/g at 0.1 C and retained 208 m Ah/g at 1 C after 100 cycles at 45℃,which corresponds to a capacity retention of 88.5%,compared to the initial discharge capacity of234.1 m Ah/g and retained capacity of 200.5 m Ah/g(85.6%).The enhanced capacity retention is attributed to the synergetic effect of foreign elements by acting as a surface structural stabilizer without sacrificing specific capacity.展开更多
基金Project supported by the Key Laboratory Fund(Grant No.6142804200303)from Science and Technology on Microsystem Laboratorythe Key Research Program of Frontier Sciences of the Chinese Academy of Sciences:Original Innovation Projects from 0 to 1(Grant No.ZDBS-LY-JSC010)+2 种基金the Key Research and Development Project of the Department of Science and Technology of Jiangsu Province,China(Grant No.BE2020003)the Beijing Municipal Science and Technology Commission(Grant No.Z191100004719001)the National Key Research and Development Program of China(Grant No.2017YFB0405400)。
文摘Nickel-rich cathode materials are increasingly being applied in commercial lithium-ion batteries to realize higher specific capacity as well as improved energy density.However,low structural stability and rapid capacity decay at high voltage and temperature hinder their rapid large-scale application.Herein,a wet chemical method followed by a post-annealing process is utilized to realize the surface coating of tantalum oxide on LiNi_(0.88)Mn_(0.03)Co_(0.09)O_(2),and the electrochemical performance is improved.The modified Li Ni_(0.88)Mn_(0.03)Co_(0.09)O_(2)displays an initial discharge capacity of~233 m Ah/g at0.1 C and 174 m Ah/g at 1 C after 150 cycles in the voltage range of 3.0 V–4.4 V at 45℃,and it also exhibits an enhanced rate capability with 118 m Ah/g at 5 C.The excellent performance is due to the introduction of tantalum oxide as a stable and functional layer to protect the surface of LiNi_(0.88)Mn_(0.03)Co_(0.09)O_(2),and the surface side reactions and cation mixing are suppressed at the same time without hampering the charge transfer kinetics.
文摘Objective: to explore the expression and clinical value of CSF2RA in pan-cancer. Methods: the data was extracted from ONCOMINE, Human Protein Atlas and Kaplan Meier-plotter. The expression level of CSF2RA on cancer tissues and normal tissues, the relationship between CSF2RA and overall survival of cancer patients were analyzed, respectively. Results: CSF2RA mRNA was over-expressed on breast cancer, colorectal cancer, kidney cancer and liver cancer, and CSF2RA protein was over-expressed on melanoma. The expression level of CSF2RA was not associated with overall survival of cancer patients significantly. Conclusion: CSF2RA is over-expression on certain cancers and most immune cells, which maybe contributes to activation of immune system. The high expression of CSF2RA protein on melanoma is maybe associated with adverse outcome of application of GM-CSF.
基金the Key Laboratory Fund(Grant No.6142804200303)from Science and Technology on Microsystem Laboratorythe Key Research Program of Frontier Sciences of the Chinese Academy of Sciences:Original Innovation Projects from 0 to 1(Grant No.ZDBS-LY-JSC010)Beijing Municipal Science&Technology Commission(Grant No.Z191100004719001)。
文摘One of the major hurdles of nickel-rich cathode materials for lithium-ion batteries is the low cycling stability,especially at high temperature and high voltage,originating from severe structural degradation,which makes this class of cathode less practical.Herein,we compared the effect of single and dual ions on electrochemical performance of high nickel(LiNi_(0.88)Mn_(0.03)Co_(0.09)O_(2),NMC)cathode material in different temperatures and voltage ranges.The addition of a few amounts of tantalum(0.2 wt%)and boron(0.05 wt%)lead to improved electrochemical performance.The co-modified Li Ni_(0.88)Mn_(0.03)Co_(0.09)O_(2)displays an initial discharge capacity of 234.9 m Ah/g at 0.1 C and retained 208 m Ah/g at 1 C after 100 cycles at 45℃,which corresponds to a capacity retention of 88.5%,compared to the initial discharge capacity of234.1 m Ah/g and retained capacity of 200.5 m Ah/g(85.6%).The enhanced capacity retention is attributed to the synergetic effect of foreign elements by acting as a surface structural stabilizer without sacrificing specific capacity.
