Usuário(a):LesGrossman3701/Testes: diferenças entre revisões
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Linha 68:
In microreactor studies a [[Knoevenagel condensation]]<ref>''Knoevenagel condensation reaction in a membrane microreactor'' Sau Man Lai, Rosa Martin-Aranda and King Lun Yeung [[Chem. Commun.]], '''2003''', 218 - 219, {{DOI|10.1039/b209297b}}</ref> was performed with the channel coated with a [[zeolite]] catalyst layer which also serves to remove water generated in the reaction. The same reaction was performed in a microreactor covered by polymer brushes.<ref>F. Costantini, W. P. Bula, R. Salvio, J. Huskens, H. J. G. E. Gardeniers, D. N. Reinhoudt and W. Verboom [[J. Am. Chem. Soc.]], '''2009''',131, 1650, {{DOI|10.1021/Ja807616z}}</ref>
:[[Ficheiro:Knoevenagelmicrorreator.png|esquerda|semmoldura|448x448px]]
A [[Suzuki reaction]] was examined in another study<ref>''Instantaneous Carbon-Carbon Bond Formation Using a Microchannel Reactor with a Catalytic Membrane'' Yasuhiro Uozumi, Yoichi M. A. Yamada, Tomohiko Beppu, Naoshi Fukuyama, Masaharu Ueno, and Takehiko Kitamori [[J. Am. Chem. Soc.]]; '''2006'''; 128(50) pp 15994 - 15995; (Communication) {{DOI|10.1021/ja066697r}}</ref> with a palladium catalyst confined in a [[polymer network]] of [[polyacrylamide]] and a [[triphenylphosphine|triarylphosphine]] formed by [[interfacial polymerization]]:
:[[Ficheiro:Suzukimicrorreação.png|semmoldura|401x401px]]
The [[combustion]] of [[propane]] was demonstrated to occur at temperatures as low as 300 °C in a microchannel setup filled up with an [[aluminum oxide]] lattice coated with a [[platinum]] / [[molybdenum]] catalyst:<ref>''Low temperature catalytic combustion of propane over Pt-based catalyst with inverse opal microstructure in a microchannel reactor'' Guoqing Guan, Ralf Zapf, Gunther Kolb, Yong Men, Volker Hessel, Holger Loewe, Jianhui Ye and Rudolf Zentel [[Chem. Commun.]], '''2007''', 260 - 262, {{DOI|10.1039/b609599b}}</ref>
:[[Ficheiro:PropanoMicrocombustão.png|semmoldura|413x413px]]
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