The creation of a cooperative effect between zero-dimensional(0D)SnO_(2)particles and carbonaceous materials with space-confined structures has shown great potential in achieving advanced lithium-ion battery anodes(LI...The creation of a cooperative effect between zero-dimensional(0D)SnO_(2)particles and carbonaceous materials with space-confined structures has shown great potential in achieving advanced lithium-ion battery anodes(LIBs),but is full of challenges.Herein,we report a novel and green approach for the preparation of uniform SnO_(2)nanocrystals anchored within a continuous mesoporous carbon network.For the first time,the formation of SnO_(2)nanocrystals and in situ carbon-coating were achieved simultaneously through the ion exchange and hydrothermal method(IEHM).展开更多
基金supported by the National Natural Science Foundation of China(No.J1210040)the Research Fund for the Doctoral Program of Higher Education of China(20120161110024).
文摘The creation of a cooperative effect between zero-dimensional(0D)SnO_(2)particles and carbonaceous materials with space-confined structures has shown great potential in achieving advanced lithium-ion battery anodes(LIBs),but is full of challenges.Herein,we report a novel and green approach for the preparation of uniform SnO_(2)nanocrystals anchored within a continuous mesoporous carbon network.For the first time,the formation of SnO_(2)nanocrystals and in situ carbon-coating were achieved simultaneously through the ion exchange and hydrothermal method(IEHM).
