高等学校化学学报

高等学校化学学报 ›› 2013, Vol. 34 ›› Issue (8): 1913.doi: 10.7503/cjcu20130268

• 物理化学 • 上一篇    下一篇

多孔层柱磷酸锆在Prins缩合反应中的应用

王雪燕, 华伟明, 乐英红, 高滋   

  1. 复旦大学化学系, 上海市分子催化和功能材料重点实验室, 上海 200433
  • 收稿日期:2013-03-21 出版日期:2013-08-10 发布日期:2013-07-19
  • 通讯作者: 乐英红,男,博士,教授,博士生导师,主要从事多相催化剂的研究.E-mail:yhyue@fudan.edu.cn E-mail:yhyue@fudan.edu.cn
  • 基金资助:

    国家自然科学基金(批准号: 20633030, 20773027, 20773028, 21273043)和上海市科学技术委员会(批准号: 08DZ2270500)资助.

Porous Phosphate Heterostructure Materials as Green Catalysts in Prins Condensation

WANG Xue-Yan, HUA Wei-Ming, YUE Ying-Hong, GAO Zi   

  1. Department of Chemistry, Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials, Fudan University, Shanghai 200433, China
  • Received:2013-03-21 Online:2013-08-10 Published:2013-07-19
  • Contact: YUE Ying-Hong E-mail:yhyue@fudan.edu.cn

PDF (PC)

被引次数

5

摘要:

制备了一系列不同离子交换的多孔氧化硅层柱磷酸锆, 利用N2吸附-脱附、 扫描电子显微镜和吡啶吸附红外光谱等方法对材料的结构和酸性进行了表征, 并应用于β-蒎烯与多聚甲醛的Prins缩合反应合成诺卜醇. 结果发现, 层柱磷酸锆对此反应具有优异的催化性能, 锌离子的引入可进一步提高诺卜醇的选择性, 从而得到更高的诺卜醇产率, 于80℃反应4 h后β-蒎烯的转化率为91%, 诺卜醇产率达到83%. 酸性表征结果表明, 诺卜醇产率与催化剂表面Lewis酸(L酸)性位的数目以及L酸位/B酸位的比值密切相关. 该催化剂还具有较好的重复利用性能, 反应5次后产率仅下降12%. 催化剂的失活可能是由于酸性位被积碳覆盖所致.

关键词: 层状磷酸锆, 锌离子交换, Prins缩合, 诺卜醇, Lewis酸性位

Abstract:

Various ion-exchanged porous phosphate heterostructure(PPH) materials were prepared and characterized by SEM, N2 adsorption and infrared spectra of pyridine adsorption(Py-IR). Their catalytic behavior for the Prins condensation of β-pinene with paraformaldehyde was investigated. All catalysts exhibit good activities and selectivities towards nopol. Zn-ZrP is a more selective one in comparison to others, due to abundant Lewis acid sites and less Brnsted acid sites on the surface. The conversion of β-pinene and the yield of nopol on the catalyst reach 91% and 83% at 80℃. The catalyst is stable and reusable, and the product yield is only reduced by 12% after five runs. The reduction in activity is probably caused by deposition of coke on the active sites and partial collapse of porous structure.

Key words: Zirconium phosphate, Zn2+ exchanged, Prins condensation, Nopol, Lewis acid site

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