微波技术在催化领域中应用的研究进展

材料与冶金学报, 2005, 4(1): 40-43. doi: 10.3969/j.issn.1671-6620.2005.01.010

微波技术在催化领域中应用的研究进展

李丽华 ^1, , 翟玉春 ^2, , 张金生 ^3, , 王吉林 ^4, , 于廷云 ^5,

1.东北大学,材料与冶金学院,辽宁,沈阳,110004;辽宁石油化工大学,石油化工学院,辽宁,抚顺,113001

2.东北大学,材料与冶金学院,辽宁,沈阳,110004

3.辽宁石油化工大学,石油化工学院,辽宁,抚顺,113001

4.辽宁石油化工大学,石油化工学院,辽宁,抚顺,113001

5.辽宁石油化工大学,石油化工学院,辽宁,抚顺,113001

关键词：微波技术 , 催化剂 , 甲烷 , 分子筛

Development progress of microwave technology application in catalytic field

综述了近年来微波技术在催化剂制备、载体改性、新型材料合成及微波诱导催化反应等方面的研究进展,比较了微波辐射制备催化剂的方法和传统制备催化剂的方法. 微波技术不仅在催化剂的制备时间上明显少于传统的制备方法,而且在催化剂的活性、寿命、表面的晶体类型等方面也明显优于传统的制备方法.微波技术作为一种高效、绿色环保技术,在催化领域具有广阔的应用前景.

参考文献

[1]	MingosDMP;Baghurst D R .Applicationofmicrowavedielectricheatingeffectstosyntheticproblemsinchemistry[J].Chemical Society Reviews,1991,21:1-47.
[2]	黄卡玛;刘永清;唐敬贤.微波化学一门新兴的交叉学科[J].电子科技导报,1994(01):20-21.
[3]	金钦汉;戴树珊;黄卡玛.微波化学[M].北京:科学出版社,1999
[4]	erlanJ .Microwavesinchemistry:anotherwayofheatingreactionmixtures[J].Radiation Physics and Chemistry,1995,45(04):581-589.
[5]	Majetich;George;Hicks et al.Applicationsofmicrowave-acceleratedorganicsynthesis[J].Radiation Physics and Chemistry,1995,45(04):567-579.
[6]	Jin QH.;Zhang HQ.;Zhao LW.;Huan YF.;Song DQ.;Liang F. .Application of microwave techniques in analytical chemistry[J].TrAC: Trends in Analytical Chemistry,1999(7):479-484.
[7]	Langa F.;Espildora E.;Garcia JJ.;Perez MC.;de la Hoz A.;de la Cruz P. .Fullerene chemistry under microwave irradiation[J].Carbon: An International Journal Sponsored by the American Carbon Society,2000(11/12):1641-1646.
[8]	Larhed M;Hallberg A .Microwave-assisted high-speed chemistry: a new technique in drug discovery.[J].Drug discovery today,2001(8):406-416.
[9]	Pelle Lidstrom;Jason Tierney;Bernard Wathey;Jacob Westman .Microwave assisted organic synthesis-a review[J].Tetrahedron,2001(45):9225-9283.
[10]	Wathey B;Tierney J;Lidstrom P;Westman J .The impact of microwave-assisted organic chemistry on drug discovery.[J].Drug discovery today,2002(6):373-380.
[11]	Stadler A.;Pichler S.;Horeis G.;Kappe CO. .Microwave-enhanced reactions under open and closed vessel conditions. A case study[J].Tetrahedron,2002(16):3177-3183.
[12]	朱学文,廖列文,崔英德,方岩雄.微波在化学中的应用及其进展[J].精细化工,2001(05):295-299.
[13]	TseMY;Depew M C;Wan J K S et al.Acetylenefrombenzene:Anovelandselectivemicrowaveassistedcrackingsynthesis[J].Chem Interm,1990,13:221.
[14]	Lingaiah N.;Rao PK.;Smart LE.;Berry FJ.;Prasad PSS. .Studies on magnesia supported mono- and bimetallic Pd-Fe catalysts prepared by microwave irradiation method[J].Applied Catalysis, A. General: An International Journal Devoted to Catalytic Science and Its Applications,2001(2):189-196.
[15]	LingaiahN;Sai Prasad P S;Kanta Rao P et al.StructureandactivityofmicrowaveirradiatedsilicasupportedPd-Febimetalliccatalystsinthehydrodechlorinationofchlorobenzene[J].Journal of Catalysis,2002,3:391-397.
[16]	赵杉林,张扬建,孙桂大,翟玉春.钛硅沸石分子筛TiMCM-41的微波合成与表征[J].催化学报,1999(01):93-95.
[17]	ChuP;Dwyer F G;Vartuli J C .Crystallization Method Employing Microwave[P].US 4778666,1988-10-18.
[18]	宋天佑.微波辐射法合成NaX分子筛[J].高等学校化学学报,1992(10):1209.
[19]	AraftA;Jansen J C;Ebaid A R et al.Microwave-assistedAl-substitutedtobermoritesynthesis[J].Zeolites,1993,13:162-165.
[20]	Chun-Guey Wu;Thomas Bein .Microwave synthesis of molecular sieve MCM-41[J].Chemical communications,1996(8):925-926.
[21]	ParkSE;Kim D S;Chang J S et al.SynthesisofMCM-41usingmicrowaveheatingwithethyleneglycol[J].Catalysis Today,1998,44:301-308.
[22]	FangM;Du H B;Xu W G et al.MicrowavepreparationofmolecularsieveAlPO4-5withnanometersizes[J].Microporous Materials,1997,91(12):59-61.
[23]	许磊,王公慰,魏迎旭,齐越,刘宪春,包信和.MCM-41介孔分子筛合成研究Ⅱ.微波辐射合成法[J].催化学报,1999(03):251-255.
[24]	Sang-EonPark;Dae Sung Kim;Jong-San Chang et al.SynthesisofMCM-41usingmicrowaveheatingwithethyleneglycol[J].Catalysis Today,1998,44:301-308.
[25]	SlangenPM;Jansen J C;Bekkum H van .TheeffectofageingonthemicrowavesynthesisofzeoliteNaA[J].Microporous Materials,1997,9:259-265.
[26]	张东,田一光,罗根祥,赵杉林.Mn-MCM-41的微波合成及氧化还原行为研究[J].温州师范学院学报,2002(03):13-15.
[27]	马波;孙万付;陈平 .硅铝材料的微波合成[J].石油化工,1998,27(09):645-648.
[28]	孙德坤;朱键华;时吉等.微波法制备Al2O3/NaY新型复合多孔催化材料[J].催化学报,1998,19(01):81-84.
[29]	解革,朱建华,淳远,刘琳,韩小伟.微波法研制CaO/NaY强碱性沸石催化新材料[J].催化学报,2001(05):445-448.
[30]	朱建华,王英,淳远,吴振,须沁华.微波辐射法研制表面镀饰型沸石复合新材料[J].高技术通讯,2000(07):104-106,63.
[31]	SuiSL;Zerger R P .Adirectcontinuous,lowpowercatalyticconversionofmethanetohigherhydrocarbonsviamicrowaveplasmas[J].Journal of Catalysis,1993,139:383-391.
[32]	毕先钧,谢小光,洪品杰,戴树珊.微波辐照引发甲烷部分氧化制合成气Ⅰ.反应条件对Ni/La2O3催化剂催化活性的影响[J].催化学报,1999(01):70-72.
[33]	孙兆林,张金生,丁洪生,程志林,高昌录,李宏洋,桂建舟,金俏,宋丽娟.轻烃芳构化的系统研究（Ⅰ）--混合碳四和正己烷在ZnNi/HZSM-5催化剂上的微波芳构化[J].石油化工高等学报,1999(03):6-10.
[34]	程志林,刘赞,晁自胜,万惠霖,孙兆林.微波诱导催化轻质烃芳构化[J].厦门大学学报(自然科学版),2002(03):315-321.

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微波技术在催化领域中应用的研究进展

Development progress of microwave technology application in catalytic field

参考文献