趙黔榕1, 吳春華2, 畢韻梅1, 張 濤1, 龔 葉1, 佟艷秀1
(1. 云南師范大學(xué)化學(xué)化工學(xué)院,云南昆明650092;2. 西南林學(xué)院木質(zhì)科學(xué)與裝飾工程學(xué)院,云南昆明650224)
摘 要: 用幾種稀土元素對單一型固體超強(qiáng)酸SO42-/TiO2進(jìn)行改性。結(jié)果表明,用Ce4+改性效果較好,且當(dāng)Ce4+質(zhì)量分?jǐn)?shù)為7.5%、經(jīng)500℃焙燒3h后催化劑SO42-/TiO2-Ce4+的催化活性最佳,并用TEM、 XRD和IR對其結(jié)構(gòu)進(jìn)行了表征。該改性催化劑屬于納米級材料,粒徑為32nm, 粒度均勻。并以該固體超強(qiáng)酸SO42-/TiO2-Ce4+為催化劑,松油醇和乙酸酐為原料合成乙酸松油酯。利用正交試驗得到適宜的合成條件為:反應(yīng)溫度70℃、催化劑用量3%、松油醇與乙酸酐物質(zhì)的量之比為1∶1.5、反應(yīng)時間6h。在此條件下,松油醇轉(zhuǎn)化率達(dá)99%,產(chǎn)物中乙酸松油酯含量達(dá)90%。與普通型固體超強(qiáng)酸進(jìn)行比較,SO42-/TiO2-Ce4+具有更高的催化活性和選擇性。
關(guān)鍵詞: 固體超強(qiáng)酸;稀土元素;乙酸松油酯;催化合成
中圖分類號:TQ352.71; TQ462 文獻(xiàn)標(biāo)識碼:A 文章編號:0253-2417(2006)04-0073-05
Studies on Solid Superacid SO42-/TiO2 Modified by Rare Earth Element and Its Catalysis for Synthesis of Terpinyl Acetate
ZHAO Qianrong1, WU Chunhua2,BI Yunmei1, ZHANG Tao1,GONG Ye1,TONG Yanxiu1
(1.College of Chemistry and Chemical Engineering,Yunnan Normal University, Kunming 650092, China;2.Faculty of Wood Science and Decoration Engineering,Southwest Forestry College, Kunming 650224, China)
Abstract: Common solid superacid SO42-/TiO2 was modified by several rare earth elements. The results showed that Ce4+ was the best modifying agent among these rare earth substances. Ce4+modified solid surperacid SO42-/TiO2Ce4+ displayed excellent activity when superacid SO42-/TiO2 was impregnated by 7.5 % Ce4+ and then calcined at 500 ℃ for 3 h. The structure of SO42-/TiO2Ce4+ was characterized by TEM, XRD and IR methods. The catalyst was a nanomaterial with uniform granularity of 32 nm. Synthesis of terpinyl acetate from terpineol and acetic anhydride with solid superacid SO42-/TiO2Ce4+as catalyst had been studied for the first time. By orthogonal test, the optimum condition was obtained as follows: reaction temperature 70 ℃, reaction time 6 h, catalyst dosage 3 %,ratio of terpineol to acetic anhydride 1∶1.5. Under this condition, the conversion of terpineol was over 99 %, and the content of terpinyl acetate in the product was 90 %. Compared with common superacid SO42-/TiO2, the modified SO42-/TiO2Ce4+ had higher catalytic activity and selectivity.
Key words: solid superacid;rare earth element;terpinyl acetate;catalytic synthesis