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以空气为氧化剂Pd(OAc)_2/HPMo/AcOH催化苯液相氧化偶联合成联苯(英文) 被引量:1

Liquid-Phase Synthesis of Biphenyl by Oxidative Coupling of Benzene Using Pd(OAc)_2/HPMo/AcOH Catalyst and Air Oxidant
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摘要 研究了以Pd(OAc)2为催化剂,H3PMo12O40为助催化剂,空气为氧化剂,在乙酸溶液中于373K条件下,在500ml高压釜中由苯液相氧化偶联合成联苯.结果表明,反应产物中联苯的选择性高达92%以上,并且只有少量的三联苯副产物生成. 分别考察了H3PMo12O40的加入量和O2分压对以空气或纯O2为氧化剂时Pd/HPMo/AcOH催化苯液相氧化偶联合成联苯反应催化性能的影响.根据反应液颜色的变化以及文献结果推测,在反应过程中通过钯和钼物种的氧化和还原作用使苯氧化生成联苯. Biphenyl is an important industrial material used as a heat transfer agent, anti-mildew agent and raw material of synthetic resins . Biphenyl derivatives are widely used as the monomers of various polymers and liquid crystal materials . Although the Ullmann reaction and Suzuki coupling are well-known methods for the preparation of biphenyl through aryl-aryl coupling, these reactions lead to undesirable by-products like copper iodide or boric salts. This is not satisfactory from the environmental and atom-utilization viewpoint. Biphenyl is presently manufactured by the vapor-phase dehydrogenation of benzene . A low-temperature liquid-phase synthesis of biphenyl such as the catalytic dimerization of benzene is interesting both academically and industrially. Hence, the development of biphenyl synthesis by the direct coupling of an aryl compound, such as benzene, is an important challenge in catalysis. Pd-catalyzed dimerization of benzene in a liquid phase has been investigated extensively . However, there are few literature reports on the selective synthesis of biphenyl by the oxidative coupling of benzene using a Pd/heteropoly acid/acetic acid catalyst and using air as the oxidant.
作者 李显明 丁云杰 焦桂萍 潘振栋 江大好 林励吾
机构地区 中国科学院大连化学物理研究所
出处 《催化学报》 SCIE CAS CSCD 北大核心 2005年第4期265-267,共3页
关键词 氧化偶联 联苯 乙酸钯 杂多酸 乙酸 空气 氧化剂 benzene oxidative coupling biphenyl palladium acetate heteropoly acid acetic acid air oxidant
分类号 O643 [理学—物理化学]
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参考文献11

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同被引文献9

  • 1李峻海,侯文杰.联苯及其衍生物的研究进展[J].燃料与化工,2005,36(3):27-29. 被引量:13
  • 2江丽,陆文军.室温下钯催化生成联苯的合成方法[J].应用化学,2006,23(11):1307-1308. 被引量:1
  • 3徐克勋.精细有机化工原料及中间手册[M].北京:化学工业出版社,2001:3-25.
  • 4Venkatraman S,Li Chaojun.Carbon-carbon bond formation via palladium-catalyzed reductive coupling in air[J].Organic Let-ters,1999,1(7):1133-1135.
  • 5Miyaura N,Suzuki A.Palladium-catalyzed cross-coupling reactions of organoboron compounds[J].Chemical Review,1995,95(7):2457-2483.
  • 6Mukhopadhyay S,Rothenberg G,Lando G.Air oxidation of benzene to biphenyl:a dual catalytic approach[J].Adv Synth Catal,2001,343(5):455-459.
  • 7Ismailov R G,Alley D A,Ivanova T M.Investigation of the thermal condensation of petroleum-derived benzene for the production of biphenyl[J].Azarbaycan Neft Tasarruti,1963,42(4):35-41.
  • 8Ismailov R G,Aliev D A,Ivanova T M.Biphenvl from benzene[J].Azarbaycan Neft Tasarruti,1963,42(11):37-45.
  • 9杨岩.联苯的应用及合成[J].广西化工,1991(1):31-32. 被引量:5

引证文献1

催化学报
2005年 第4期

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