化工进展
化工進展
화공진전
Chemical Industry and Engineering Progress
2015年
12期
4238-4247
,共10页
段晓磊%迟骋%朱丽君%周玉路%项玉芝%夏道宏
段曉磊%遲騁%硃麗君%週玉路%項玉芝%夏道宏
단효뢰%지빙%주려군%주옥로%항옥지%하도굉
离子液体%固载化%载体%酯化%活性
離子液體%固載化%載體%酯化%活性
리자액체%고재화%재체%지화%활성
ionic liquids%immobilized%supports%esterification%reactivity
固载化离子液体兼具载体材料高比表面积与离子液体的高催化活性等优点,不仅提升了离子液体的利用率,大幅度降低了离子液体的用量,而且可以显著提高离子液体在酯化反应中的催化活性.本文主要综述了固载化离子液体在催化酯化反应方面的研究进展,分别介绍了以硅胶、介孔分子筛、磁性介孔二氧化硅纳米材料以及高分子等为载体的固载化离子液体在酯化反应中的催化性能,简要分析了固载化离子液体催化酯化反应的机理与影响固载化离子液体催化活性的因素,并对固载化离子液体目前存在的问题以及今后的发展方向进行了总结,建立系统的载体与离子液体的构效关系,并对其性能进行长期的工业评测是今后的主要努力方向.
固載化離子液體兼具載體材料高比錶麵積與離子液體的高催化活性等優點,不僅提升瞭離子液體的利用率,大幅度降低瞭離子液體的用量,而且可以顯著提高離子液體在酯化反應中的催化活性.本文主要綜述瞭固載化離子液體在催化酯化反應方麵的研究進展,分彆介紹瞭以硅膠、介孔分子篩、磁性介孔二氧化硅納米材料以及高分子等為載體的固載化離子液體在酯化反應中的催化性能,簡要分析瞭固載化離子液體催化酯化反應的機理與影響固載化離子液體催化活性的因素,併對固載化離子液體目前存在的問題以及今後的髮展方嚮進行瞭總結,建立繫統的載體與離子液體的構效關繫,併對其性能進行長期的工業評測是今後的主要努力方嚮.
고재화리자액체겸구재체재료고비표면적여리자액체적고최화활성등우점,불부제승료리자액체적이용솔,대폭도강저료리자액체적용량,이차가이현저제고리자액체재지화반응중적최화활성.본문주요종술료고재화리자액체재최화지화반응방면적연구진전,분별개소료이규효、개공분자사、자성개공이양화규납미재료이급고분자등위재체적고재화리자액체재지화반응중적최화성능,간요분석료고재화리자액체최화지화반응적궤리여영향고재화리자액체최화활성적인소,병대고재화리자액체목전존재적문제이급금후적발전방향진행료총결,건립계통적재체여리자액체적구효관계,병대기성능진행장기적공업평측시금후적주요노력방향.
Immobilized ionic liquids have advantages of both high surface area to volume ratio of the carrier material and high catalytic activity of ionic liquids,which can improve not only the utilization efficiency of the ionic liquids,resulting reduced amount of ionic liquids,but also the catalytic reactivity of the ionic liquids in the esterification reaction. This article mainly reviews the application of immobilized ionic liquids in esterification reactions,and the catalytic performance of the immobilized ionic liquids,supported individually by silica gel,mesoporous molecular sieve,magnetic mesoporous silica nano-materials and high polymer,are introduced. Then the catalytic mechanism of the immobilized ionic liquid on the esterification reaction and the factors that affect the catalytic reactivity of the immobilized ionic liquids are discussed briefly. The unsolved problems of immobilized ionic liquids and the future development direction are proposed,including establishing systematic structure-activity relationship of carrier and ionic liquid and its long-term industrial performance evaluation.
