浙江水利科技
浙江水利科技
절강수리과기
ZHEJIANG SHUILI KEJI
2015年
3期
1-3
,共3页
偶氮杯芳烃%离子印迹技术%锂离子
偶氮杯芳烴%離子印跡技術%鋰離子
우담배방경%리자인적기술%리리자
Azo-calixarene%Lon imprinting technology%Lithium-ion
选择偶氮杯芳烃为功能单体,以锂离子为模板离子,用钛酸正丁酯作交联剂,运用离子印迹技术,制备了偶氮杯芳烃Li离子印迹聚合物。经过电子扫描显微镜和红外光谱仪对印迹聚合物的结构进行表征。结果表明单位质量吸附量较分子筛的吸附量大。
選擇偶氮杯芳烴為功能單體,以鋰離子為模闆離子,用鈦痠正丁酯作交聯劑,運用離子印跡技術,製備瞭偶氮杯芳烴Li離子印跡聚閤物。經過電子掃描顯微鏡和紅外光譜儀對印跡聚閤物的結構進行錶徵。結果錶明單位質量吸附量較分子篩的吸附量大。
선택우담배방경위공능단체,이리리자위모판리자,용태산정정지작교련제,운용리자인적기술,제비료우담배방경Li리자인적취합물。경과전자소묘현미경화홍외광보의대인적취합물적결구진행표정。결과표명단위질량흡부량교분자사적흡부량대。
Selecting azo-calixarene as the functionial monomer , Li+ as the template ion ,butyl-titanate as the cross-linker , this paper used the ion imprinting technology to prepare imprinted polymer of Li+ . The structure of imprinted polymer was showed by scanning electron microscope (SEM ) and FT - IR spectrometer . The conclusion showed that the adsorption quantity of imprinted polymer was more than that of molecular sieve .
