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Consideration of the superior performance and high yield, the core–shell structured C/SnO 2 hollow spheres are of great interest for the next-generation LIBs. Herein, novel one-dimensional (1D) hollow core-shell SnO2/C fibers were synthesized by facile coaxial electrospinning. All in all, the SnO 2 -ZnO core-shell nanowires have positive characteristics and applications in the manufacture of photodetectors. The co-modification with Au and NiO nanoparticles was carried out by a simple chemical reduction approach. Even at a high current density of 1 and 2 A g −1, the core–shell structured C/SnO 2 hollow spheres electrode still exhibits excellent discharge capacity in the long life cycles. 5H2O) and 4-methylimidazole as the primary raw materials. A novel intramolecular defluorinative cyclization approach to the. Haichao Liu, Takafumi Shido, Yasuhiro Iwasawa. Selective ammoxidation of isobutane on a crystalline SbRe2O6. Owing to the dual buffer effect of the carbon layer and hollow structures, the core–shell structured C/SnO 2 hollow spheres deliver a high reversible discharge capacity of 1007 mAh g −1 at a current density of 100 mA g −1 after 300 cycles and a superior discharge capacity of 915 mAh g −1 at 500 mA g −1 after 500 cycles. Development of a new force field for open shell ions: application to. Very importantly, high-yield C/SnO 2 spheres can be produced by this method, which suggest potential business applications in LIBs field. of SnCl4 5H2O and 1.40 g of NaOH were added into 40 mL of. Herein, the solid and hollow structure as well as the carbon content can be controlled. Large-scale novel core-shell microspheres of SnO2 have been synthesized through a simple. To meet this, a facile and efficient strategy to fabricate core–shell structured C/SnO 2 hollow spheres by a solvothermal method is reported. Therefore, the simple but effective method focused on fabrication of SnO 2 is imperative. Due to the high theoretical capacity as high as 1494 mAh g −1, SnO 2 is considered as a potential anode material for high-capacity lithium–ion batteries (LIBs).