武汉轻工大学学报
武漢輕工大學學報
무한경공대학학보
Journal of Wuhan Polytechnic University
2014年
2期
41-45
,共5页
王梅%张立麒%杨明%胡文云
王梅%張立麒%楊明%鬍文雲
왕매%장립기%양명%호문운
胺基咪唑功能离子液体%合成工艺条件%结构表征%物化性质%纯度
胺基咪唑功能離子液體%閤成工藝條件%結構錶徵%物化性質%純度
알기미서공능리자액체%합성공예조건%결구표정%물화성질%순도
amino imidazole functional ionic liquid%synthetic conditions%structural characterization%physicochem-ical properties%purities
胺基咪唑功能离子液体在固定CO2方面具有独特的优势,但其合成制备步骤复杂,产率低,成本高等局限了它的广泛应用。采用两步合成法合成了1-(1-胺乙基)-3-甲基咪唑氟硼酸盐([ NH2 e-mim][ BF4]),通过核磁共振和红外光谱进行结构表征,并测定了其纯度及密度、黏度、表面张力、电导率等物理化学性质。实验表明:离子液体(简称IL)合成最佳工艺条件是原料配比n(3-溴丙胺氢溴酸盐)/n( N-甲基咪唑)=1.1,以乙醇为溶剂,在343 K下反应24 h,减压蒸馏提纯;合成物胺的含量均在0.9355 mol NH2/mol IL以上,纯度较高;红外光谱法和核磁共振氢谱分析表明合成了目标产物,298 K下合成的产物的物化性质与文献报道的相近。
胺基咪唑功能離子液體在固定CO2方麵具有獨特的優勢,但其閤成製備步驟複雜,產率低,成本高等跼限瞭它的廣汎應用。採用兩步閤成法閤成瞭1-(1-胺乙基)-3-甲基咪唑氟硼痠鹽([ NH2 e-mim][ BF4]),通過覈磁共振和紅外光譜進行結構錶徵,併測定瞭其純度及密度、黏度、錶麵張力、電導率等物理化學性質。實驗錶明:離子液體(簡稱IL)閤成最佳工藝條件是原料配比n(3-溴丙胺氫溴痠鹽)/n( N-甲基咪唑)=1.1,以乙醇為溶劑,在343 K下反應24 h,減壓蒸餾提純;閤成物胺的含量均在0.9355 mol NH2/mol IL以上,純度較高;紅外光譜法和覈磁共振氫譜分析錶明閤成瞭目標產物,298 K下閤成的產物的物化性質與文獻報道的相近。
알기미서공능리자액체재고정CO2방면구유독특적우세,단기합성제비보취복잡,산솔저,성본고등국한료타적엄범응용。채용량보합성법합성료1-(1-알을기)-3-갑기미서불붕산염([ NH2 e-mim][ BF4]),통과핵자공진화홍외광보진행결구표정,병측정료기순도급밀도、점도、표면장력、전도솔등물이화학성질。실험표명:리자액체(간칭IL)합성최가공예조건시원료배비n(3-추병알경추산염)/n( N-갑기미서)=1.1,이을순위용제,재343 K하반응24 h,감압증류제순;합성물알적함량균재0.9355 mol NH2/mol IL이상,순도교고;홍외광보법화핵자공진경보분석표명합성료목표산물,298 K하합성적산물적물화성질여문헌보도적상근。
Fixation of CO2 using task-specific ionic liquids have some unique advantages , but synthesis factors such as complex preparation, low yield, high cost and so on limit its applications.In that thesis, [NH2e-mim][BF4] was synthesized , and its structure was characterized by FTIR and H-NMR, then the products ’ purity and physico-chemical properties were tested, including density, viscosity, surface tension, electrical conductivity, etc.It showed that it would obtain better synthetics when n C2H6BrN· HBr/nC4H6N2 was 1.1 with ethanol as solvent , reaction 24 h at 343 k and purification by vacuum distillation .Amine content of compound was above 0.9355 mol NH2/mol IL, and it had high purity .FTIR and H-NMR structure characterization analysis showed that the target product was synthesized successfully .Physicochemical properties of synthetic products were similar to reported in literatures .
