power efficiency high efficiency ball mill hebm

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Combustion synthesis in nanostructured reactive systems

Four types of nanoscale heterogeneous combustion systems are reviewed. • Composite reactive nanostructured particles prepared by high energy ball milling.

[Online consultation]

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A new SiO/C anode composition for lithium-ion battery

A new anode composition comprising SiO and graphite(C) is prepared through a high-energy ball milling process. During the first cycle, the anode delivers high discharge and charge capacity values of 1556 and 693 mAh g −1, respectively.

[Online consultation]

image

Combustion synthesis in nanostructured reactive systems

Four types of nanoscale heterogeneous combustion systems are reviewed. • Composite reactive nanostructured particles prepared by high energy ball milling.

[Online consultation]

image

A new SiO/C anode composition for lithium-ion battery

A new anode composition comprising SiO and graphite(C) is prepared through a high-energy ball milling process. During the first cycle, the anode delivers high discharge and charge capacity values of 1556 and 693 mAh g −1, respectively.

[Online consultation]

image

Combustion synthesis in nanostructured reactive systems

Four types of nanoscale heterogeneous combustion systems are reviewed. • Composite reactive nanostructured particles prepared by high energy ball milling.

[Online consultation]

image

A new SiO/C anode composition for lithium-ion battery

A new anode composition comprising SiO and graphite(C) is prepared through a high-energy ball milling process. During the first cycle, the anode delivers high discharge and charge capacity values of 1556 and 693 mAh g −1, respectively.

[Online consultation]