应用化学
應用化學
응용화학
CHINESE JOURNAL OF APPLIED CHEMISTRY
2009年
12期
1404-1408
,共5页
党富民%甄新平%牛春革%孙超%王吉德%宿新泰
黨富民%甄新平%牛春革%孫超%王吉德%宿新泰
당부민%견신평%우춘혁%손초%왕길덕%숙신태
固体酸%Al-MCM-41%苯乙烯%二甲苯%二芳基乙烷%催化
固體痠%Al-MCM-41%苯乙烯%二甲苯%二芳基乙烷%催化
고체산%Al-MCM-41%분을희%이갑분%이방기을완%최화
solid acid%Al-MCM-41%styrene%xylene%diphenylethane%catalysis
以硅酸钠为硅源、硫酸铝为铝源、CTAB为模板剂,采用水热法合成了骨架负载型固体酸Al-MCM-41介孔分子筛催化剂,并通过X射线衍射(XRD)、扫描电子显微镜(SEM)和红外(IR)方法对其进行了表征,同时研究了该催化剂在二芳基乙烷合成反应中的催化性能. 考察了各种反应因素的影响,确定其最佳合成条件为:原料m(苯乙烯)∶m(二甲苯)=1∶7.5,催化剂用量为1%(总投料质量分数),反应时间为3 h,反应温度为140 ℃,产率可达87.1%,比传统催化剂浓硫酸提高了17%. 研究结果表明,该催化剂是替代液体酸合成二芳基乙烷的理想固体酸催化剂.
以硅痠鈉為硅源、硫痠鋁為鋁源、CTAB為模闆劑,採用水熱法閤成瞭骨架負載型固體痠Al-MCM-41介孔分子篩催化劑,併通過X射線衍射(XRD)、掃描電子顯微鏡(SEM)和紅外(IR)方法對其進行瞭錶徵,同時研究瞭該催化劑在二芳基乙烷閤成反應中的催化性能. 攷察瞭各種反應因素的影響,確定其最佳閤成條件為:原料m(苯乙烯)∶m(二甲苯)=1∶7.5,催化劑用量為1%(總投料質量分數),反應時間為3 h,反應溫度為140 ℃,產率可達87.1%,比傳統催化劑濃硫痠提高瞭17%. 研究結果錶明,該催化劑是替代液體痠閤成二芳基乙烷的理想固體痠催化劑.
이규산납위규원、류산려위려원、CTAB위모판제,채용수열법합성료골가부재형고체산Al-MCM-41개공분자사최화제,병통과X사선연사(XRD)、소묘전자현미경(SEM)화홍외(IR)방법대기진행료표정,동시연구료해최화제재이방기을완합성반응중적최화성능. 고찰료각충반응인소적영향,학정기최가합성조건위:원료m(분을희)∶m(이갑분)=1∶7.5,최화제용량위1%(총투료질량분수),반응시간위3 h,반응온도위140 ℃,산솔가체87.1%,비전통최화제농류산제고료17%. 연구결과표명,해최화제시체대액체산합성이방기을완적이상고체산최화제.
Al-MCM-41 mesoporous sieves were synthesized by using Na2SiO3 as silica source, Al2(SO4)3 as aluminum source, and cetyltrimethylammonium bromide(CTAB) as template under hydrothermal condition. The Al-MCM-41 mesoporous sieves were characterized by X-ray diffraction(XRD), scanning electron microscopy(SEM) and infrared spectroscopy(IR). The synthesis of diphenylethane over Al-MCM-41 catalyst and its catalytic performance were investigated. The results show that the optimal conditions were the mass percent of catalyst was 1% of the feed stock;molar ratio of xylene to styrene was 7.5∶1;reaction temperature was 140 ℃ and reaction time 3 h. The yield of diphenylethane under such conditions was about 87.1%, which was 17% higher than the yield when traditional sulfuric acid was used as catalyst. The results show that Al-MCM-41 is a promising solid acid catalyst for the synthesis of diphenylethylane instead of liquid acid.