Magnesium hydride/metal phthalocyanine hydrogen storage composite material and preparation method thereof
A technology of metal phthalocyanine and composite materials, applied in chemical instruments and methods, non-metallic elements, hydrogen, etc., to achieve the effects of convenient operation, improved hydrogen release performance, and low preparation cost
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Embodiment 1
[0028] (1) MgH with a purity of 98% by weight is fully dried 2 Add 10wt% fully dried NiPc powder with a purity of 95wt% to the powder, and add the above mixed powder and 30g of stainless steel balls with a diameter of 10mm into a ball mill jar.
[0029] (2) Ball mill the powder in (1) for 2 hours at a speed of 1000r / min, and stop for 15 minutes every 1 hour of ball milling. After getting MgH 2 / 10wt% NiPc hydrogen storage composite.
[0030] (3) For the convenience of comparison, the same process was used to prepare pure MgH 2 Ball milling system, X-ray diffraction (XRD), scanning electron microscopy (SEM), differential scanning calorimetry (DSC) characterization and comparison of the above two materials. and scanning electron microscopy-energy dispersive spectroscopy (SEM-EDS) for the 2 / 10wt% NiPc system for qualitative and quantitative analysis of elements.
[0031] The sample prepared in the above process is MgH 2 / 10wt% NiPc hydrogen storage composite. Such as fig...
Embodiment 2
[0033] (1) to fully dry MgH 2 Add 20wt% fully dried NiPc powder to the powder, add the above mixed powder and 30g of stainless steel balls with a diameter of 10mm into the ball mill jar.
[0034] (2) Ball mill the powder in (1) for 2 hours at a speed of 1000r / min, and stop for 15 minutes every 1 hour of ball milling. After getting MgH 2 / 20wt% NiPc hydrogen storage composite material.
[0035] (3) to MgH 2 The / 20wt% NiPc hydrogen storage composite material was characterized by X-ray diffraction (XRD), scanning electron microscope (SEM), differential scanning calorimetry (DSC) and compared with the two materials in Example 1.
[0036] Depend on figure 1 (c) It can be seen that MgH 2 / 20wt% NiPc system XRD patterns and MgH 2 / 10wt% NiPc system is basically the same. Depend on figure 2 (c) It can be seen that MgH 2 / 20wt% NiPc system particles compared to pure MgH 2 The system has increased, and MgH 2 / 10wt% NiPc system compared with no significant change. This show...
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