化学研究与应用
化學研究與應用
화학연구여응용
CHEMICAL RESEARCH AND APPLICATION
2015年
2期
210-214
,共5页
王崇侠%孟祥瑞%苗万青%宋庆平
王崇俠%孟祥瑞%苗萬青%宋慶平
왕숭협%맹상서%묘만청%송경평
壳聚糖%羧甲基黄原酸壳聚糖%黄原酸反应
殼聚糖%羧甲基黃原痠殼聚糖%黃原痠反應
각취당%최갑기황원산각취당%황원산반응
chitosan%carboxymethyl xanthated chitosan%xanthation
以壳聚糖( CS)为原料,先制备出O-羧甲基壳聚糖( OCMC),再和二硫化碳在碱性条件下合成O-羧甲基黄原酸壳聚糖( CXCS)。通过产物的含硫量对碱浓度、投料比和反应时间等因素进行了优化,采用固体13 C-NMR和SEM表征其结构。结果表明,合成CXCS的最佳条件为碱浓度10%,投料比1∶1,室温反应3h,产品的含硫量达10.22%。最后研究了CXCS对水溶液镉离子的吸附性能,结果表明CXCS具有优异的吸附性能,其最大吸附量可达288.5 mg/g,是壳聚糖吸附量的2.65倍。红外分析结果表明吸附主要依靠结构中的羧基和黄原酸基团。
以殼聚糖( CS)為原料,先製備齣O-羧甲基殼聚糖( OCMC),再和二硫化碳在堿性條件下閤成O-羧甲基黃原痠殼聚糖( CXCS)。通過產物的含硫量對堿濃度、投料比和反應時間等因素進行瞭優化,採用固體13 C-NMR和SEM錶徵其結構。結果錶明,閤成CXCS的最佳條件為堿濃度10%,投料比1∶1,室溫反應3h,產品的含硫量達10.22%。最後研究瞭CXCS對水溶液鎘離子的吸附性能,結果錶明CXCS具有優異的吸附性能,其最大吸附量可達288.5 mg/g,是殼聚糖吸附量的2.65倍。紅外分析結果錶明吸附主要依靠結構中的羧基和黃原痠基糰。
이각취당( CS)위원료,선제비출O-최갑기각취당( OCMC),재화이류화탄재감성조건하합성O-최갑기황원산각취당( CXCS)。통과산물적함류량대감농도、투료비화반응시간등인소진행료우화,채용고체13 C-NMR화SEM표정기결구。결과표명,합성CXCS적최가조건위감농도10%,투료비1∶1,실온반응3h,산품적함류량체10.22%。최후연구료CXCS대수용액력리자적흡부성능,결과표명CXCS구유우이적흡부성능,기최대흡부량가체288.5 mg/g,시각취당흡부량적2.65배。홍외분석결과표명흡부주요의고결구중적최기화황원산기단。
O-carboxymethyl chitosan(OCMC) was first prepared with chitosan as material,then carboxymethyl xanthated chitosan ( CXCS) was synthesized by OCMC and CS2 under alkaline condition. Some reaction conditions such as concentration of NaOH,mass ratio of OCMC to CS2 and reaction time were explored through sulfur content of CXCS and the chemical structure of CXCS was char-acterized by solid state13 C-NMR spectrum and SEM. The best reaction conditions were as follows:concentration of NaOH,10%;mass ratio,1∶1;reaction time,3h. Under these conditions,the sulfur content of CXCS was 10. 22%. The adsorption ability of Cd2+on CXCS was investigated. The experimental results showed the CXCS has excellent adsorption for Cd2+. The maximum adsorption ca-pacity of Cd2+ was 288. 5 mg/g,which was 2. 65 times of chitosan. From the FTIR analysis,-COO- and S=C-S- groups of CXCS participated in the adsorption process.
