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A calcination process was carried out at 400 °C in air for 3 h with a heating rate of 1 °C/min.
A calcination temperature of 600 °C determined by thermal gravimetric analysis was applied for converting prepared gel to oxide materials.
A calcination step for the second-time carbon coating and further crystallization is adopted following the solvothermal step.
A calcination at 500 °C in air followed by a thermal treatment at 1000 °C under nitrogen atmosphere allowed to obtain conductive ITO nanofibers.
A calcination of physical mixture of Ag metal powder and CeO2 at 500 °C results in self-dispersion of Ag into nano-particles on CeO2.
A calcination step was performed and adapted at 450 °C for 4 h at a heating rate 1 °C/min and a cooling rate of 1 °C/min to obtain mesoporous α Fe2O3 nanocrystals.
Furthermore, we also find that the WO3 microfibers calcined at 500 °C under a calcination rate of 1 °C/min exhibit an intense photoluminescence emission around 452 nm.
Pure-phase SmMn2O5 could be obtained at a calcination temperature above 900 °C.
Metallic oxides, which provide paint with its color properties, are obtained by a calcination process.
In this strategy, FeOOH nanorods are firstly coated by TiO2 shell, followed by a calcination process.
The EDLC increased from 0.144 F g−1 at a calcination temperature of 100 °C to 485 F g−1 at a calcination temperature of 500 °C.
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