功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2015年
5期
5136-5141,5146
,共7页
黄丽%陈征贤%黄怀国%庄荣传%王鸿辉%董清木%郭祥群
黃麗%陳徵賢%黃懷國%莊榮傳%王鴻輝%董清木%郭祥群
황려%진정현%황부국%장영전%왕홍휘%동청목%곽상군
膨润土%硒酸根%表征%吸附动力学%可能的吸附机理
膨潤土%硒痠根%錶徵%吸附動力學%可能的吸附機理
팽윤토%서산근%표정%흡부동역학%가능적흡부궤리
bentonite%selenium%characterization%adsorption kinetics%possible adsorption mechanism
采用水热合成法制备羟基铁锆改性复合膨润土(Fe/Zr-Bent),通过 SEM-EDS、TEM、XRD 对样品的形貌、尺寸、晶型分布等进行了表征,并利用加盐法测定了样品的等电点,及其考察了改性前、后膨润土对水中硒酸根的吸附性能,分析吸附动力学和可能的吸附机理.结果表明,改性后 Fe/Zr-Bent 样品中形貌变得粗糙及铁元素和锆元素的存在、存在纳米级针状羟基铁锆晶体及其大部分分布于膨润土的表面.Fe/Zr-Bent的等电点由改性前膨润土的10.5降低至5.5,表面带正电荷,易于通过离子交换、络合、静电作用等方式吸附含氧阴离子硒酸根.改性前、后膨润土对水中硒的去除率由11.84%提高至86.66%,显著增强其吸附性能,其吸附过程符合伪二级动力学吸附模型(R2>0.997),平衡吸附量达到46.73 mg/g.
採用水熱閤成法製備羥基鐵鋯改性複閤膨潤土(Fe/Zr-Bent),通過 SEM-EDS、TEM、XRD 對樣品的形貌、呎吋、晶型分佈等進行瞭錶徵,併利用加鹽法測定瞭樣品的等電點,及其攷察瞭改性前、後膨潤土對水中硒痠根的吸附性能,分析吸附動力學和可能的吸附機理.結果錶明,改性後 Fe/Zr-Bent 樣品中形貌變得粗糙及鐵元素和鋯元素的存在、存在納米級針狀羥基鐵鋯晶體及其大部分分佈于膨潤土的錶麵.Fe/Zr-Bent的等電點由改性前膨潤土的10.5降低至5.5,錶麵帶正電荷,易于通過離子交換、絡閤、靜電作用等方式吸附含氧陰離子硒痠根.改性前、後膨潤土對水中硒的去除率由11.84%提高至86.66%,顯著增彊其吸附性能,其吸附過程符閤偽二級動力學吸附模型(R2>0.997),平衡吸附量達到46.73 mg/g.
채용수열합성법제비간기철고개성복합팽윤토(Fe/Zr-Bent),통과 SEM-EDS、TEM、XRD 대양품적형모、척촌、정형분포등진행료표정,병이용가염법측정료양품적등전점,급기고찰료개성전、후팽윤토대수중서산근적흡부성능,분석흡부동역학화가능적흡부궤리.결과표명,개성후 Fe/Zr-Bent 양품중형모변득조조급철원소화고원소적존재、존재납미급침상간기철고정체급기대부분분포우팽윤토적표면.Fe/Zr-Bent적등전점유개성전팽윤토적10.5강저지5.5,표면대정전하,역우통과리자교환、락합、정전작용등방식흡부함양음리자서산근.개성전、후팽윤토대수중서적거제솔유11.84%제고지86.66%,현저증강기흡부성능,기흡부과정부합위이급동역학흡부모형(R2>0.997),평형흡부량체도46.73 mg/g.
Hydroxyl Fe/Zr modified bentonite (Fe/Zr-Bent)was prepared by the hydrothermal method and the samples before and after modification were characterized by SEM-EDS,TEM and XRD.Isoelectric point (pHzpc)was measured by the adding salt law.Adsorption performance,adsorption kinetics and possible adsorp-tion mechanism were investigated.The characterization data showed that compared with bentonite before modi-fication,morphology of Fe/Zr-Bent became rougher observed from SEM-EDS and confirmed the existence of Fe and Zr elements,TEM and XRD confirmed that nanoscale needle-like crystals of hydroxyl Fe/Zr irregularly dis-tributed on the surface of bentonite after modification.pHzpc of Fe/Zr-Bent decreased from 10.5 to 5.5,which carried positive charge beneficial to adsorb oxyanions selenium via ion exchange,complication and electrostatic interaction.The removal efficiency of selenium in aqueous solution was raised from 11.84% to 86.66%,which significantly enhance its adsorption performance.Adsorption process of selenium was fitting pseudo second-or-der model (R2>0.997)and adsorption capacity was 46.73 mg/g.
