功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2012年
13期
1712-1717
,共6页
唐旖旎%吴平霄%侯雅琨%朱能武%党志
唐旖旎%吳平霄%侯雅琨%硃能武%黨誌
당의니%오평소%후아곤%주능무%당지
表面活性剂%柱撑%配位键%解吸%吸附等温线
錶麵活性劑%柱撐%配位鍵%解吸%吸附等溫線
표면활성제%주탱%배위건%해흡%흡부등온선
surfactant%pillared%coordinate bond%desorption%adsorption isotherm
利用聚羟基Fe/Al制备出无机柱撑蒙脱石,以阳离子表面活性剂HDTMA、阴离子型的表面活性剂SDS作为有机改性剂制备出有机改性蒙脱石,并且通过XRD、FT—IR、BET和zeta电位等表征手段对柱撑粘土进行表征,首次研究了具有不同层间结构的改性蒙脱石对鲑鱼精DNA的吸附特征。DNA吸附量大小顺序为HTDM—MMT〉MMT〉SDS-MMT—Fe/Al—MMT。HTDMA改性促进了蒙脱石的吸附,吸附量达61.04μg/mg。而SDS覆盖其表面后,吸附量减至26.88μg/mg。在pH值为5.0~9.0范围内,有机改性蒙脱石对DNA的吸附量随PH值下降幅度远小于原土。吸附动力学研究表明,控制改性蒙脱石吸附DNA的主要步骤是化学吸附。用NaOAc和NaH2PO4解吸DNA时,有机与无机蒙脱石解吸规律有明显差异。实验结果表明,结构、电负性及表面性质是影响不同改性蒙脱石吸附DNA分子的关键因素。
利用聚羥基Fe/Al製備齣無機柱撐矇脫石,以暘離子錶麵活性劑HDTMA、陰離子型的錶麵活性劑SDS作為有機改性劑製備齣有機改性矇脫石,併且通過XRD、FT—IR、BET和zeta電位等錶徵手段對柱撐粘土進行錶徵,首次研究瞭具有不同層間結構的改性矇脫石對鮭魚精DNA的吸附特徵。DNA吸附量大小順序為HTDM—MMT〉MMT〉SDS-MMT—Fe/Al—MMT。HTDMA改性促進瞭矇脫石的吸附,吸附量達61.04μg/mg。而SDS覆蓋其錶麵後,吸附量減至26.88μg/mg。在pH值為5.0~9.0範圍內,有機改性矇脫石對DNA的吸附量隨PH值下降幅度遠小于原土。吸附動力學研究錶明,控製改性矇脫石吸附DNA的主要步驟是化學吸附。用NaOAc和NaH2PO4解吸DNA時,有機與無機矇脫石解吸規律有明顯差異。實驗結果錶明,結構、電負性及錶麵性質是影響不同改性矇脫石吸附DNA分子的關鍵因素。
이용취간기Fe/Al제비출무궤주탱몽탈석,이양리자표면활성제HDTMA、음리자형적표면활성제SDS작위유궤개성제제비출유궤개성몽탈석,병차통과XRD、FT—IR、BET화zeta전위등표정수단대주탱점토진행표정,수차연구료구유불동층간결구적개성몽탈석대해어정DNA적흡부특정。DNA흡부량대소순서위HTDM—MMT〉MMT〉SDS-MMT—Fe/Al—MMT。HTDMA개성촉진료몽탈석적흡부,흡부량체61.04μg/mg。이SDS복개기표면후,흡부량감지26.88μg/mg。재pH치위5.0~9.0범위내,유궤개성몽탈석대DNA적흡부량수PH치하강폭도원소우원토。흡부동역학연구표명,공제개성몽탈석흡부DNA적주요보취시화학흡부。용NaOAc화NaH2PO4해흡DNA시,유궤여무궤몽탈석해흡규률유명현차이。실험결과표명,결구、전부성급표면성질시영향불동개성몽탈석흡부DNA분자적관건인소。
Poly hydroxyl iron and aluminum was used as inorganic pillaring reagent to prepare inorganic montmorillonite (MMT). At the same time, organic clays pillared by HTDMA and SDS were prepared. These clays were analyzed by X-ray diffraction (XRD), infrared spectrum (IR), specific surface area analyzer (BET) and zeta potential instrument. We compared the adsorptive performance of salmon sperm DNA on MMT of different structure for the first time. The values of equilibrium adsorbance were in order of HTDM-MMT〉MMT〉SDS- MMT〉Fe/Al-MMT. After organic modification, HTDMA promote DNA adsorption, with the adsorbance of 61.04μg/mg. However, as a result of being carpeted with SDS on external surface, the SDS-MMT adsorbed less DNA with the adsorbance of 26.88μg/mg. When pH values were 5.0-9.0, the amounts of DNA adsorption on organic modified MMT declined far less than original MMT with the increase of pH value. The kinetics of adsorption indicated that the main step which controlled DNA adsorption on modified MMT is chemical adsorp- tion. The differences of desorption on organic and inorganic modified MMT are very significant while the DNA adsorbed was desorbed with NaOAc and NaH2PO4 solution. These results showed that the structure, the electronegativity and the characteristics of the surface were the key factors that affect DNA adsorption on differently modified MMT.
