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3、 ;“ ? J. 3, 2006, 23(4): 17- 2127f B, y, ,.%MQ , J.%, 2000, 17(6): 343- 34428,I (. , CaCO3A #A b ? J. S, 1998(2): 65- 6729i,y. E , !VJ.v, 2004, 31(4): 28- 3130, 6,_,. 2 E , ZnO!V J., 2001, 13(2): 157- 15931f, ,. “ 82E!ZnO J. , 2002, 10(3): 251- 25532 , ;,;. ZnO , L! J., 2005, 21(4): 583- 587Research
4、 progress in nanoparticleZnO preparationmethodsTANG Min, FU Min, HU Ze- shan(College ofEnvironmentaland BiologicalEngineering, ChongqingTechnology andBusinessUniversity, Chongqing400067, China)Abstract: Thispaper introducesapplication prospect and research status quo ofnanoparticle ZnO athomeand abr
5、oad, andmakes detailed analysisand discussion on basic principle such as chemicalprecipitatingmeth2od, sol- gelmethod, micro- emulsionmethod, hydro- thermalsynthesisand chemicalgaschromatography, influ2entialfactors, the size ofradiusoftheproducts, operation processand soon. The authorpointsoutthe advanta2ges and disadvantagesofeach technology, and givesfuture research direction:makingnanoparticleZnOwith newproperty, smaller radius, even size, adjustable shape and low cos.tK eywords: nanoparticle ZnO; preparation; characteristics3 I :B 293第3期 汤 敏,等:纳米氧化锌制备方法研究进展
