利用微乳法,通过调节W0值(水与表面活性剂的摩尔比), 实现了负载型Rh/SiO2催化剂中金属铑粒子大小的可控合成. 该催化剂具有核壳结构,其中铑为核, SiO2为壳. TEM表征及反应评价结果显示金属铑的粒子大小(1.8~5.0 nm)对CO加氢反应性能具有显著的影响. 当粒子大小为3 nm时, CO加氢反应活性存在最小值; 随着粒子的进一步增大, CO加氢反应活性上升. 与浸渍法制备的催化剂相比,微乳法制备的催化剂粒子大小均一; 对负载量相同、平均粒子大小相同的两种催化剂,微乳法合成的Rh/SiO2催化剂对CO加氢反应具有较高的催化活性.
参考文献
| [1] | Ichikawa M.[J].Journal of the Chemical Society,Chemical Communications,1978(13):566. |
| [2] | Ichikawa M .[J].Bulletin of the Chemical Society of Japan,1978,51(08):2268. |
| [3] | Katzer J R;Sleight A W;Gajardo P;Michel J B Gleason E F McMillan S.[J].Faraday Discussions of the Chemical Society,1981(72):121. |
| [4] | Underwood R P;Bell A T .[J].Applied Catalysis,1986,21(01):157. |
| [5] | Underwood R P;Bell A T .[J].Applied Catalysis,1987,34(1-2):289. |
| [6] | Arakawa H;Takeuchi K;Matsuzaki T;Sugi Y.[J].Chemistry Letters,1984(09):1607. |
| [7] | Arakawa H;Fukushima T;Ichikawa M;Takeuchi K Matsuzaki T Sugi Y.[J].Chemistry Letters,1985(01):23. |
| [8] | Van'tBlik H F J;Vis J C;Huizinga T;Prins R .[J].Applied Catalysis,1985,19(02):405. |
| [9] | Ojeda M;Rojas S;Boutonnet M;Perez-Alonso F J Javier Garcia-Garcia F Fierro J L G .[J].Applied Catalysis A:General,2004,274(1-2):33. |
| [10] | Belton D N;Schmieg S J .[J].Surface Science,1988,202(1-2):238. |
| [11] | Sa J;Vinek H .Catalytic hydrogenation of nitrates in water over a bimetallic catalyst[J].Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications,2005(4):247-256. |
| [12] | Tago T.;Dhupatemiya P.;Hayashi H.;Kishida M.;Wakabayashi K.;Hanaoka T. .Effects of Rh content on catalytic behavior in CO hydrogenation with Rh-silica catalysts prepared using microemulsion[J].Catalysis Letters,2000(1):27-31. |
| [13] | Hayashi H;Chen L Z;Tago T;Kishida M Wakabayashi K .[J].Applied Catalysis A:General,2002,231(1-2):81. |
| [14] | Kishida M;Hayashi H;Tago T;Wakabayashi K .[J].Kinetics and Catalysis,1999,40(03):407. |
| [15] | Kim W Y;Hayashi H;Kishida M;Nagata H Wakabayashi K .[J].Applied Catalysis A:General,1998,169(01):157. |
| [16] | Kishida M;Fujita T;Umakoshi K;Ishiyama J, Nagata H, Wakabayashi K.[J].Journal of the Chemical Society,Chemical Communications,1995(07):763. |
| [17] | Kishida M;Tago T;Hatsuta T;Wakabayashi K.[J].Chemistry Letters,2000(09):1108. |
| [18] | 尹红梅,丁云杰,罗洪原,熊建民,何代平,王涛,林励吾.铁助剂对Rh-Mn-Li/SiO2催化剂催化CO加氢制二碳含氧化合物性能的影响[J].催化学报,2002(04):352-356. |
| [19] | Kishida M;Ichiki K-i;Hanaoka T;Nagata H Wakabayashi K .[J].Catalysis Today,1998,45(1-4):203. |
| [20] | Granqvist C G;Buhrman R A J .[J].Appl Phy,1976,47(05):2200. |
| [21] | Xu X D;Doesburg E B M;Scholten J J F .[J].Catalysis Today,1987,2(01):125. |
| [22] | 尹红梅,丁云杰,罗洪原,何代平,熊建民,陈维苗,潘振栋,林励吾.Rh基催化剂上CO加氢制C2含氧化物的原位红外光谱研究[J].催化学报,2004(07):547-550. |
| [23] | Biloen P;Sachtler W M H.[J].ADVANCES IN CATALYSIS,1981(30):165. |
| [24] | Dry M E .[J].Applied Catalysis A:General,1996,138(02):319. |
| [25] | Orita H;Natio S;Tamaru K .[J].Journal of Catalysis,1984,90(02):183. |
| [26] | 汪海有;刘金波;许金来;傅锦坤 林种玉 张洪斌 蔡启瑞 .[J].分子催化,1994,8(02):111. |
| [27] | Kuznetzov V L;Romanenko A V;Mudrakovskii I L;Matikhin V M, Shmachkov V A, Ermakov Y I.[A].Berlin:Verlag Chemie,1984:198. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%