Preparation of Nanometer Sized Cuprous Oxide and its Photocatalytic Performance over Four Nitrophenol

Yu Liang

doi:10.4028/www.scientific.net/AMM.333-335.1853

Paper Titles

Analysis the Actual Nanostructure of α Phase Polyoctylfluorene Thin Film via Synchrotron Grazing-Incidence X-Ray Diffraction
p.1832

Investigation on Non-Preheating Welding Technology of X70 Pipeline Steel
p.1836

Metal Corrosion Problems and Countermeasures in High Conductivity of Circulating Water
p.1841

First-Principles Study of Electronic and Optical Properties in Wurtzite ZnCoO Alloys
p.1847

Preparation of Nanometer Sized Cuprous Oxide and its Photocatalytic Performance over Four Nitrophenol
p.1853

Quantitative Investigation of Flocs Flotation Removal and Hydrocyclonic Separation for the Washing Water Treatment
p.1857

Preparation and Properties of Cage-Like Nano ZnO
p.1862

Effects of Freeze-Thaw Circumstance on Stress and Displacement Filed of Tunnel Surrounding Rock
p.1867

Rheological and Electrical Properties of CB/HDPE Composites
p.1872

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 333-335Preparation of Nanometer Sized Cuprous Oxide and...

Preparation of Nanometer Sized Cuprous Oxide and its Photocatalytic Performance over Four Nitrophenol

Abstract:

Nanometer sized Cu₂O is synthesised by nucleation crystallization separation and redox methods, with NaBH₄ as reducing agent. It takes several researching methods, such as XRD,SEM,EDS and UV-vis, etc, to study the structure, composition and spectral features of the product. The results show that, comparing with traditional methods, the Cu₂O particles produced by nucleation crystallization separation and redox methods have following features: similar appearances, small particle size, and narrow distribution, etc. The photocatalytic experiment shows that, this kind of Cu₂O has excellent photocatalytic activity over four nitrophenol.

You might also be interested in these eBooks

Measurement Technology and Engineering Researches in Industry

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 333-335)

Pages:

1853-1856

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.333-335.1853

Citation:

Cite this paper

Online since:

July 2013

Authors:

Yu Liang

Keywords:

Nanometer Sized Cuprous Oxide, Nucleation Crystallization Separation Four Nitrophenol, Photocatalytic Activity, Preparation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Astam Kumar Patrai, Archie Data, Aim Baume, Catalysis Communications. Vol. 11(2010), p.651–655.

Google Scholar

[2] YanAiguo, Liu Meiting, etc. Chemical Journal of Chinese Universities, Vol. 31(2010), pp.447-451.

Google Scholar

[3] Shi Qiujie, Liu Nin, Liang Yi, Chinese Journal of Catalysis. Vol. 28(2007), pp.57-61.

Google Scholar

[4] Guo Jiaxiu, Liang Juan, etc. Chinese Journal of Catalysis. Vol. 31 (2010), pp.278-282.

Google Scholar

[5] Han Xiao, Wang Yuanshen. China Particuology. Vol. 25(2007), pp.653-656.

Google Scholar

[6] Dong Guobo, Zhang Ming, Lan Wei etc, Function materials. Vol. 38(2007), pp.1549-1551.

Google Scholar

[7] Wei Mingzhen, Lun Ning, Ma Xipin, etc Inorganic Chemicals Industry. Vol. 39(2007), pp.21-22.

Google Scholar

[8] YunZhao, FengLi, DavidG. Evans, andXueDuan*Chem. Mater. Vol. 14(2002), pp.4286-4291.

Google Scholar

[9] QianHongmei, Liyan, HeChengwei, Semiconductor Optoelectronics. Vol. 29(2008), pp.913-915.

Google Scholar

[10] ChenZhigang, TangYiwen , ect. Journal of Inorganic Materials. Vol. 20(2005), pp.367-372.

Google Scholar

[11] Tang Yiwen, Chen Zhigang, etc. Journal of Inorganic Materials, Vol. 21(2006), pp.453-458.

Google Scholar

[12] JeongHoLeWeBaeKo*, Journal of Industrialand Engineering Chemistry, Vol. 16(2010), pp.564-566.

Google Scholar