通过溶胶-凝胶法制备了Li_2FeSiO_4@C/CNTs(LFS@C/CNTs)纳米复合材料,其中三嵌段共聚物P123用作结构导向剂和碳源,碳纳米管作为导电线提高材料的导电性。LFS@C/CNTs不仅具有海绵状纳米孔,能够与电解液充分接触改善锂离子的传输路径,同...通过溶胶-凝胶法制备了Li_2FeSiO_4@C/CNTs(LFS@C/CNTs)纳米复合材料,其中三嵌段共聚物P123用作结构导向剂和碳源,碳纳米管作为导电线提高材料的导电性。LFS@C/CNTs不仅具有海绵状纳米孔,能够与电解液充分接触改善锂离子的传输路径,同时由非晶碳和碳纳米管构成的三维桥联导电网络利于电子的快速传递,提高了材料大电流充放电能力和循环稳定性。复合后的LFS@C/CNTs的高倍率性能相比LFS@C明显提高,当CNTs的掺量为4%,电压窗口为1.5~4.5 V,0.1C电流密度下放电比容量为182 m Ah·g^(-1)。在10C经70次循环后该材料的放电比容量能保持在117 m Ah·g^(-1),是LFS@C放电比容量(55 m Ah·g^(-1))的两倍。展开更多
Carbon was coated on the surface of LiMnSiOto improve the electrochemical performance as cathode materials, which were synthesized by the solution method followed by heat treatment at 700 ℃ and the solid-state method...Carbon was coated on the surface of LiMnSiOto improve the electrochemical performance as cathode materials, which were synthesized by the solution method followed by heat treatment at 700 ℃ and the solid-state method followed by heat treatment at 950 ℃. It is shown that the cycling performance is greatly enhanced by carbon coating, compared with the pristine LiMnSiOcathode obtained by the solution method. The initial discharge capacity of LiMnSiO/C nanocomposite is 280.9 m Ah/g at 0.05 C with the carbon content of 33.3 wt%. The reasons for the improved electrochemical performance are smaller grain size and higher electronic conductivity due to the carbon coating. The LiMnSiO/C cathode material obtained by the solid-state method exhibits poor cycling performance, the initial discharge capacity is less than 25 m Ah/g.展开更多
In this paper,the authors used the Mixed Coordination EXAFS Analysis Method recently published and IR to study the mixed coordination of Ge in glasses of Li_2O-ZnO-GeO_2 system,a new kind of syperionic conductor.The r...In this paper,the authors used the Mixed Coordination EXAFS Analysis Method recently published and IR to study the mixed coordination of Ge in glasses of Li_2O-ZnO-GeO_2 system,a new kind of syperionic conductor.The results show that when the content of ZnO is fixed,the ratio of [GeO_6] units is increased with the addition of Li_2O until the content of Li_2O is about 15%,and then decreased.The relationship between the ratio of [GeO_6]and the content of Li_2O is consistent with those between n,d of glass and Li_2O content, Therefore the germanium abnormalty can be explained as the change of coordination number.展开更多
文摘通过溶胶-凝胶法制备了Li_2FeSiO_4@C/CNTs(LFS@C/CNTs)纳米复合材料,其中三嵌段共聚物P123用作结构导向剂和碳源,碳纳米管作为导电线提高材料的导电性。LFS@C/CNTs不仅具有海绵状纳米孔,能够与电解液充分接触改善锂离子的传输路径,同时由非晶碳和碳纳米管构成的三维桥联导电网络利于电子的快速传递,提高了材料大电流充放电能力和循环稳定性。复合后的LFS@C/CNTs的高倍率性能相比LFS@C明显提高,当CNTs的掺量为4%,电压窗口为1.5~4.5 V,0.1C电流密度下放电比容量为182 m Ah·g^(-1)。在10C经70次循环后该材料的放电比容量能保持在117 m Ah·g^(-1),是LFS@C放电比容量(55 m Ah·g^(-1))的两倍。
基金Funded by the National Natural Science Foundation of China(No.51372136)Shenzhen Basic Research Project(No.CYJ20130402145002372)
文摘Carbon was coated on the surface of LiMnSiOto improve the electrochemical performance as cathode materials, which were synthesized by the solution method followed by heat treatment at 700 ℃ and the solid-state method followed by heat treatment at 950 ℃. It is shown that the cycling performance is greatly enhanced by carbon coating, compared with the pristine LiMnSiOcathode obtained by the solution method. The initial discharge capacity of LiMnSiO/C nanocomposite is 280.9 m Ah/g at 0.05 C with the carbon content of 33.3 wt%. The reasons for the improved electrochemical performance are smaller grain size and higher electronic conductivity due to the carbon coating. The LiMnSiO/C cathode material obtained by the solid-state method exhibits poor cycling performance, the initial discharge capacity is less than 25 m Ah/g.
文摘In this paper,the authors used the Mixed Coordination EXAFS Analysis Method recently published and IR to study the mixed coordination of Ge in glasses of Li_2O-ZnO-GeO_2 system,a new kind of syperionic conductor.The results show that when the content of ZnO is fixed,the ratio of [GeO_6] units is increased with the addition of Li_2O until the content of Li_2O is about 15%,and then decreased.The relationship between the ratio of [GeO_6]and the content of Li_2O is consistent with those between n,d of glass and Li_2O content, Therefore the germanium abnormalty can be explained as the change of coordination number.