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Online since: March 2008
Authors: Larry L. Hench, Julia M. Polak
Hench
1,a
and Julia M.
References 1.
Soc. 40 [1] 1-42 (2004) 3.
Vol. 1 Edited by T.
Polak, 'Enhanced Derivation of Osteogenic Cells from Murine Embryonic Stem Cells after Treatment with Ionic Dissolution Products of 58s Bioactive Sol-Gel Glass', Tissue Engineering, 11 (2005), 479-88. 56.
References 1.
Soc. 40 [1] 1-42 (2004) 3.
Vol. 1 Edited by T.
Polak, 'Enhanced Derivation of Osteogenic Cells from Murine Embryonic Stem Cells after Treatment with Ionic Dissolution Products of 58s Bioactive Sol-Gel Glass', Tissue Engineering, 11 (2005), 479-88. 56.
Online since: June 2021
Authors: Ming Xie, Sai Bei Wang, Yong Tai Chen, Ji Heng Fang, Shang Qiang Zhao
Fig. 1 Schematic view of Ag-Zn alloy internal oxidation process
Internal oxidation.
Schematic view of Ag-Zn alloy internal oxidation process is shown in Fig. 1.
(1) Application of nanotechnology.
References [1] C.P.
Yang, et al, Effect of preparing method of ZnO powders on electrical arc erosion behavior of Ag/ZnO electrical contact material, Journal of Materials Research. 31 (2016) 468-479
Schematic view of Ag-Zn alloy internal oxidation process is shown in Fig. 1.
(1) Application of nanotechnology.
References [1] C.P.
Yang, et al, Effect of preparing method of ZnO powders on electrical arc erosion behavior of Ag/ZnO electrical contact material, Journal of Materials Research. 31 (2016) 468-479
Online since: January 2022
Authors: Li Min Dong, Yan Wei Xiao, Ying Kui Guo, Lian Wei Shan, Ming Qi Yuan, Zi Lan Fang, Shui Tuan Lin, Dan Li, Cheng Guo Ma
In Figure 7a, Raman peaks around 205 cm-1, 278 cm-1, 312 cm-1, 410 cm-1, 447 cm-1 were observed from the pure α-BO sample.
It can be seen from the figure that the peak intensity of BC45 increases at 1065 cm-1, 1241 cm-1, 1392 cm-1, 2895 cm-1 and 2983 cm-1.
According to formula (2), the calculated k values for BC25, BC45, BC65, BC85 and α-BO, CS1 are 0.31 h-1, 0.51 h-1, 0.30 h-1, 0.25 h-1, 0.10 h-1 and 0.13 h-1, respectively.
Comparison of the MO removal effect of our photocatalyst with other advanced photocatalysts reported in the literature MO Catalyst type Light type Degradation rate/g photocatalyst Ref. 10 mg L-1 100 mL 100 mg CdS/TiO2 300 W Xenon lamp 7.83×10-3 min-1 g-1 L-1 [57] 1×10-5 M, 100 mL 100 mg CdS/La2Ti2O7 400 W high- pressure Hg lamp 5.45×10-3 min-1 g-1 L-1 [58] 5 mg L-1 200 mL 100 mg CdS/ZnO 500 W halogen tungsten lamp 5.25×10-3 min-1 g-1 L-1 [59] 20 mg L-1, 100 mL 100 mg Y-doped Bi2O3 100 W tungsten halogen lamp 1.59×10-2 min-1 g-1 L-1 [60] 15 mg L-1, 100 mL 100 mg AgBr/Bi2O3 500 W xenon lamp 1.15×10-2 min-1 g-1 L-1 [61] 10 mg L-1, 100 mL 9 mg α-Bi2O3/CdS 300 W xenon lamp 4.03×10-2 min-1 g-1 L-1 This work 3.7.
J. 344 (2018) 469-479
It can be seen from the figure that the peak intensity of BC45 increases at 1065 cm-1, 1241 cm-1, 1392 cm-1, 2895 cm-1 and 2983 cm-1.
According to formula (2), the calculated k values for BC25, BC45, BC65, BC85 and α-BO, CS1 are 0.31 h-1, 0.51 h-1, 0.30 h-1, 0.25 h-1, 0.10 h-1 and 0.13 h-1, respectively.
Comparison of the MO removal effect of our photocatalyst with other advanced photocatalysts reported in the literature MO Catalyst type Light type Degradation rate/g photocatalyst Ref. 10 mg L-1 100 mL 100 mg CdS/TiO2 300 W Xenon lamp 7.83×10-3 min-1 g-1 L-1 [57] 1×10-5 M, 100 mL 100 mg CdS/La2Ti2O7 400 W high- pressure Hg lamp 5.45×10-3 min-1 g-1 L-1 [58] 5 mg L-1 200 mL 100 mg CdS/ZnO 500 W halogen tungsten lamp 5.25×10-3 min-1 g-1 L-1 [59] 20 mg L-1, 100 mL 100 mg Y-doped Bi2O3 100 W tungsten halogen lamp 1.59×10-2 min-1 g-1 L-1 [60] 15 mg L-1, 100 mL 100 mg AgBr/Bi2O3 500 W xenon lamp 1.15×10-2 min-1 g-1 L-1 [61] 10 mg L-1, 100 mL 9 mg α-Bi2O3/CdS 300 W xenon lamp 4.03×10-2 min-1 g-1 L-1 This work 3.7.
J. 344 (2018) 469-479