文章摘要
陈艳艳,陈广学,崔艳艳,陈奇峰,邰晶磊,杨宇.不同溶剂体系生成纳米银形貌研究[J].包装工程,2015,36(21):34-37,56.
CHEN Yan-yan,CHEN Guang-xue,CUI Yan-yan,CHEN Qi-feng,TAI Jing-lei,YANG Yu.Morphology of Nano Silver Synthesized in Different Solvent Systems[J].Packaging Engineering,2015,36(21):34-37,56.
不同溶剂体系生成纳米银形貌研究
Morphology of Nano Silver Synthesized in Different Solvent Systems
投稿时间:2015-03-20  修订日期:2015-11-10
DOI:
中文关键词: 纳米银  化学还原  形貌  粒度
英文关键词: nanosilver particle  chemical reduction  morphology  particle size
基金项目:广东省省级科技计划 (2013B010401007)
作者单位
陈艳艳 华南理工大学制浆造纸工程国家重点实验室广州 510640 
陈广学 华南理工大学制浆造纸工程国家重点实验室广州 510640 
崔艳艳 广东工业大学广州 510006 
陈奇峰 华南理工大学制浆造纸工程国家重点实验室广州 510640 
邰晶磊 华南理工大学制浆造纸工程国家重点实验室广州 510640 
杨宇 华南理工大学制浆造纸工程国家重点实验室广州 510640 
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中文摘要:
      目的 为优化化学还原法合成纳米银的路径, 对比研究乙醇、 乙二醇、 去离子水等3种溶剂中生成纳米银的形貌和粒径。方法 首先采用化学还原的方法, 分别在乙醇、 乙二醇、 去离子水中利用水合肼还原硝酸银, 控制反应温度为60 ℃, 并用磁力搅拌器剧烈搅拌, 制得PVP保护的纳米银, 然后用紫外-可见分光光度计、 扫描电子显微镜和马尔文激光粒度仪进行表征。结果 3种溶液反应体系中都生成了球形纳米银, 平均粒径分别为35, 40和53 nm。其中, 乙醇溶液体系条件下生成的球形纳米银粒度小, 粒径分布窄, 乙二醇溶液体系条件生成的纳米银粒度稍大, 粒径分布稍宽, 去离子水体系中生成的球形纳米银粒度最大, 粒径分布最宽。此外, 去离子水中生成的纳米银形貌多样, 不仅生成球形纳米银, 还生成了少量形状各异的纳米银。结论 乙醇作为溶剂有利于生成粒径较小且分布均匀的球形纳米银。
英文摘要:
      The aim of this work was to optimize the synthesis route for silver nanoparticles by chemical reduction method, the morphology and particle size of nanosilver synthesized in three solvents, namely ethanol, ethylene glycol(EG) and deionized water, were comparatively studied. Firstly, chemical reduction methods were used to prepare nanosilver under PVP protection in ethanol, ethylene glycol and deionized water respectively using silver nitrate as Ag precursor and hydrazine hydrate as reductant, the reaction temperature was kept at 60 ℃ and the reaction system was vigorously stirred with magnetic force. Then UV-Vis spectrophotometer, scanning electron microscope and Malvern laser particle size analyzer were used to characterize the morphology and particle size of silver nanoparticles. All three reaction systems generated spherical nano-silver, and the average particle size was 35 nm in ethanol system, 40 nm in ethylene glycol system and 53 nm in deionized water system respectively, and the width of particle size distribution increased in the order of ethanol, ethylene glycol, and deionized water system. Besides, the morphology of nano-silver generated in deionized water was diverse, including mainly spherical nano-silver and a small amount of anisotropically shaped nano-silver. In conclusion, using ethanol as a solvent helped produce small and uniform spherical nano silver.
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