Molybdenum trioxide coated molybdenum doped titanium dioxide nano composite particle and preparation method and application thereof
A titanium dioxide, molybdenum trioxide technology, applied in nanotechnology, nanotechnology, nanotechnology for materials and surface science, etc., can solve problems such as the influence of electrochemical performance of materials, and achieve high electrochemical activity and high rate performance, The effect of high rate performance and good lithium ion transport and diffusion ability
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Embodiment 1
[0036] 5%Mo / TiO 2 Preparation of composite nanoparticles and their application in lithium batteries:
[0037] (1) Preparation of precursor solution: 12.93g of tetrabutyl titanate and 0.65g of molybdenum acetylacetonate were ultrasonically dissolved in 100mL of xylene to obtain a 0.4M (titanium source) precursor solution for use.
[0038] (2) Use a syringe pump to form fine atomized droplets through an external gas-assisted shear (shear pressure 0.12MPa) atomization burner at a certain speed of 5mL / min. h 2 / O 2 (H 2 Flow 0.1m 3 / h,O 2 Flow 1.0m 3 / h) Combustion, pyrolysis, oxidation and other reactions occur under the assistance of the diffusion flame. After leaving the flame, the vacuum pump assists the glass fiber filter to collect the molybdenum trioxide-coated molybdenum-doped titanium dioxide nanocomposite particles.
[0039] (3) Calcining the obtained nano-powder in an air atmosphere, the heating rate is 1°C / min, the calcination temperature is 350°C, and the calci...
Embodiment 2
[0042] 10%Mo / TiO 2 Preparation of composite nanoparticles and their application in lithium batteries:
[0043] (1) Preparation of precursor solution: Weigh 10.01g of tetrabutyl titanate and 2.25g of butyl titanate as a combined titanium source, dissolve them in 100mL of toluene / xylene (volume ratio of 1:1), a 0.4M (titanium source) precursor solution was obtained for use.
[0044] (2) Use a syringe pump to form fine atomized droplets through an external gas-assisted shear (shear pressure 0.15MPa) atomization burner at a certain speed of 5mL / min. h 2 / O 2 (H 2 Flow 0.15m 3 / h,O 2 Flow 1.0m 3 / h) Combustion, pyrolysis, oxidation and other reactions occur under the assistance of the diffusion flame. After leaving the flame, the vacuum pump assists the glass fiber filter to collect the molybdenum trioxide-coated molybdenum-doped titanium dioxide nanocomposite particles.
[0045] (3) Calcining the obtained nano-powder in an air atmosphere, the heating rate is 2°C / min, the c...
Embodiment 3
[0048] 15%Mo / TiO 2 Preparation of composite nanoparticles and their application in lithium batteries:
[0049] (1) Preparation of precursor solution: 14.46g of butyl titanate and 2.45g of molybdenum acetylacetonate were weighed and dissolved in 100mL of toluene by ultrasonication for 20min to obtain a 0.5M (titanium source) precursor solution for use.
[0050] (2) Use a syringe pump to form fine atomized droplets through an external gas-assisted shear (shear pressure 0.2MPa) atomization burner at a certain speed of 6mL / min. h 2 / O 2 (H 2 Flow 0.1m 3 / h,O 2 Flow 1.2m 3 / h) Combustion, pyrolysis, oxidation and other reactions occur under the assistance of the diffusion flame. After leaving the flame, the vacuum pump assists the glass fiber filter to collect the molybdenum trioxide-coated molybdenum-doped titanium dioxide nanocomposite particles.
[0051] (3) Calcining the obtained nano-powder in an air atmosphere, the heating rate is 1°C / min, the calcination temperature i...
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