新型炭材料
新型炭材料
신형탄재료
NEW CARBON MATERIALS
2014年
1期
15-25
,共11页
肖得力%李卉%何华%林锐%左朋礼
肖得力%李卉%何華%林銳%左朋禮
초득력%리훼%하화%림예%좌붕례
羧基化磁性多壁碳纳米管%羧基化多壁碳纳米管%吸附%铜( II )%化学吸附
羧基化磁性多壁碳納米管%羧基化多壁碳納米管%吸附%銅( II )%化學吸附
최기화자성다벽탄납미관%최기화다벽탄납미관%흡부%동( II )%화학흡부
Carboxylated magnetic multi-walled carbon nanotube composites%Carboxylated multi-walled carbon nanotube%Ad-sorption%Cu( II)%Chemical adsorption
羧基化多壁碳纳米管( c-MWCNT)/Fe3 O4磁性复合材料( c-MWCNTMCs)通过六水合三氯化铁,乙酸钠,乙二醇,二乙二醇和c-MWCNT混合,然后超声处理,在200益下加热10 h而制得。结果表明,c-MWCNTMCs在去离子水中表现出良好的分散性、酸碱稳定性和磁性,可以作为去除铜( II)的吸附剂。 c-MWCNTMCs易被磁铁从水中分离,并对铜( II)具有较高的吸附容量。 c-MWCNTMCs对铜(II)的吸附较快,并成拟二级吸附动力模型。 c-MWCNTMCs和Cu(域)之间的吸附力是一种化学键,在pH <2的条件下吸附剂可以再生。具有磁性的Fe3 O4只对快速分离有利,而对吸附几乎没有影响。基于这种新型复合材料从水中去除的铜(II)的检测限可达1.29μg/L。
羧基化多壁碳納米管( c-MWCNT)/Fe3 O4磁性複閤材料( c-MWCNTMCs)通過六水閤三氯化鐵,乙痠鈉,乙二醇,二乙二醇和c-MWCNT混閤,然後超聲處理,在200益下加熱10 h而製得。結果錶明,c-MWCNTMCs在去離子水中錶現齣良好的分散性、痠堿穩定性和磁性,可以作為去除銅( II)的吸附劑。 c-MWCNTMCs易被磁鐵從水中分離,併對銅( II)具有較高的吸附容量。 c-MWCNTMCs對銅(II)的吸附較快,併成擬二級吸附動力模型。 c-MWCNTMCs和Cu(域)之間的吸附力是一種化學鍵,在pH <2的條件下吸附劑可以再生。具有磁性的Fe3 O4隻對快速分離有利,而對吸附幾乎沒有影響。基于這種新型複閤材料從水中去除的銅(II)的檢測限可達1.29μg/L。
최기화다벽탄납미관( c-MWCNT)/Fe3 O4자성복합재료( c-MWCNTMCs)통과륙수합삼록화철,을산납,을이순,이을이순화c-MWCNT혼합,연후초성처리,재200익하가열10 h이제득。결과표명,c-MWCNTMCs재거리자수중표현출량호적분산성、산감은정성화자성,가이작위거제동( II)적흡부제。 c-MWCNTMCs역피자철종수중분리,병대동( II)구유교고적흡부용량。 c-MWCNTMCs대동(II)적흡부교쾌,병성의이급흡부동력모형。 c-MWCNTMCs화Cu(역)지간적흡부력시일충화학건,재pH <2적조건하흡부제가이재생。구유자성적Fe3 O4지대쾌속분리유리,이대흡부궤호몰유영향。기우저충신형복합재료종수중거제적동(II)적검측한가체1.29μg/L。
Carboxylated multi-wall carbon nanotube ( c-MWCNT)-Fe3 O4 magnetic hybrids ( c-MWCNTMCs) were prepared by mixing FeCl3·6H2 O, sodium acetate, ethylene glycol and diethylene glycol with c-MWCNTs, followed by sonicating and heat treatment at 200℃ for 10 h. Results indicated that the c-MWCNTMCs showed a good dispersion stability, an acid and alkali resistivity, and magnetic properties in deionized water, and can be used as adsorbents for Cu( II) removal . The c-MWCNTMCs could be easily separated from water by a magnet and showed a high adsorption capacity for Cu( II) . The adsorption of Cu( II) on the c-MWCNTMCs was quick and followed a pseudo-second-order model. The adsorption force between the c-MWCNTMHs and Cu (II) was of a chemical type and the saturated adsorbents can be regenerated at pH < 2. 0. The magnetic Fe3O4 favored only the quick separation and had little contribution to adsorption. The low limit of Cu( II) in water that was removable with the hybrids was 1. 29μg/L.
