太原理工大学学报
太原理工大學學報
태원리공대학학보
JOURNAL OF TAIYUAN UNIVERSITY OF TECHNOLOGY
2015年
5期
532-536
,共5页
乔永生%沈腊珍%郭永%李晓琛
喬永生%瀋臘珍%郭永%李曉琛
교영생%침석진%곽영%리효침
Fe3 O4/PPy%复合微球%结晶紫%吸附%磁性
Fe3 O4/PPy%複閤微毬%結晶紫%吸附%磁性
Fe3 O4/PPy%복합미구%결정자%흡부%자성
Fe3 O4/PPy%nanocomposites%crystal violet%adsorption%magnetic
采用化学聚合法将聚吡咯(PPy )原位聚合在 Fe3 O4纳米粒子表面,制备得到了磁性Fe3 O4/PPy复合微球,考察该复合微球对水中结晶紫的吸附性能。用透射电子显微镜、X‐射线衍射仪、红外光谱、振动样品磁强计和紫外可见分光光度计对产品进行了表征。结果显示,多个粒径约8 nm的Fe3 O4粒子包埋在聚吡咯微球内,形成直径约为130 nm的Fe3 O4/PPy 复合微球,其比饱和磁化强度为52.2 A · m2/kg ,展现出良好的磁响应性能和迅速从液相中分离出来的能力。50 mg的Fe3 O4/PPy复合微球在30 min内能够吸附水中97%的结晶紫(30 mg/L ,50 mL );70 mg的Fe3 O4/PPy复合微球在15 min内能吸附水中95%的结晶紫;在60 min内,50 mg 和70 mg 的Fe3 O4/PPy复合微球均能吸附水中100%的结晶紫,表明制得的 Fe3 O4/PPy 复合微球是一种快速有效的吸附剂,可用于吸附工业废水中的结晶紫。
採用化學聚閤法將聚吡咯(PPy )原位聚閤在 Fe3 O4納米粒子錶麵,製備得到瞭磁性Fe3 O4/PPy複閤微毬,攷察該複閤微毬對水中結晶紫的吸附性能。用透射電子顯微鏡、X‐射線衍射儀、紅外光譜、振動樣品磁彊計和紫外可見分光光度計對產品進行瞭錶徵。結果顯示,多箇粒徑約8 nm的Fe3 O4粒子包埋在聚吡咯微毬內,形成直徑約為130 nm的Fe3 O4/PPy 複閤微毬,其比飽和磁化彊度為52.2 A · m2/kg ,展現齣良好的磁響應性能和迅速從液相中分離齣來的能力。50 mg的Fe3 O4/PPy複閤微毬在30 min內能夠吸附水中97%的結晶紫(30 mg/L ,50 mL );70 mg的Fe3 O4/PPy複閤微毬在15 min內能吸附水中95%的結晶紫;在60 min內,50 mg 和70 mg 的Fe3 O4/PPy複閤微毬均能吸附水中100%的結晶紫,錶明製得的 Fe3 O4/PPy 複閤微毬是一種快速有效的吸附劑,可用于吸附工業廢水中的結晶紫。
채용화학취합법장취필각(PPy )원위취합재 Fe3 O4납미입자표면,제비득도료자성Fe3 O4/PPy복합미구,고찰해복합미구대수중결정자적흡부성능。용투사전자현미경、X‐사선연사의、홍외광보、진동양품자강계화자외가견분광광도계대산품진행료표정。결과현시,다개립경약8 nm적Fe3 O4입자포매재취필각미구내,형성직경약위130 nm적Fe3 O4/PPy 복합미구,기비포화자화강도위52.2 A · m2/kg ,전현출량호적자향응성능화신속종액상중분리출래적능력。50 mg적Fe3 O4/PPy복합미구재30 min내능구흡부수중97%적결정자(30 mg/L ,50 mL );70 mg적Fe3 O4/PPy복합미구재15 min내능흡부수중95%적결정자;재60 min내,50 mg 화70 mg 적Fe3 O4/PPy복합미구균능흡부수중100%적결정자,표명제득적 Fe3 O4/PPy 복합미구시일충쾌속유효적흡부제,가용우흡부공업폐수중적결정자。
The magnetic Fe3 O4/polypyrrole (PPy ) nanocomposites were prepared via in situ chemical polymerization of pyrrole on Fe3 O4 nanorparticles .T he adsorption performance of Fe3 O4/PPy nanocomposites for crystal violet from aqueous solutions was investigated .The sam‐ples were characterized by transmission electron microscopy (TEM ) ,X‐ray powder diffraction (XRD ) ,Fourier transform infrared spectroscopy (FTIR ) , vibrating sample magnetometer (VSM) and UV/Vis spectrometry .The results show that multiple Fe3O4 nanoparticles 8 nm in diameter are embedded in PPy spheres to form Fe3 O4/PPy nanocomposites with the size of about 130 nm .The as‐prepared Fe3 O4/PPy nanocomposites exhibit a specific saturation magnetization of 52.2 A · m2/kg ,and possess good magnetic response performance and rapid separation capacity from the solution .The 50 mg of Fe3 O4/PPy nanocomposites can remove 97% of crystal violet from solution (30 mg/L ,50 mL ) at 30 min ,and 70 mg of adsorbent can absorb 95% of crystal violet at 15 min ,and 100% of crystal violet can be adsorbed in 60 min with the addition of both 50 and 70 mg of adsorbent .This indicates that the as‐obtained Fe3 O4/PPy nanocomposites can be used as an effective and quick adsorbent for environmental engineering application in removing crystal violet from wastewater .
