Post on 24-Apr-2018
Electronic Supplementary Material
Topics in Catalysis Screening of soluble rhodium nanoparticles as precursor for highly active hydrogenation catalysts: the effect of the stabilizing agents
Liane M Rossi,*1 Lucas L. R. Vono,1 Marco A. S. Garcia,1 Thiago L. T. Faria,1 Jose A. Lopez-‐Sanchez2
1Instituto de Química, Universidade de São Paulo, Av. Prof. Lineu Prestes 748, São Paulo 05508-‐000, SP, Brazil
2 Stephenson’s Institute for Renewable Energy, Chemistry Department, University of Liverpool, Crown Street L69 7ZD, Liverpool, UK
* corresponding author: lrossi@iq.usp.br
Figure ESM 1. Hydrogenation of cyclohexene by supported Rh NPs prepared by salt-impregnation route followed by metal reduction using two different methods: (black) hydrogen reduction in situ during the first hydrogenation reaction (cyclohexene, 75oC, 6 atm H2) and (red) reduction with NaBH4. Reaction conditions (solventless): Cyclohexene (14.6 mmol), catalyst (0.4 µmol of Rh), 75oC, 6 atm of H2. The inset shows the data fitting for determination of initial TOF.
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Figure ESM 2. Illustration of the phase-transfer procedure used for the synthesis of Rh NPs: (I) Rh3+ is in the aqueous phase, (II) Rh3+ is transferred to toluene after addition of TOAB and (III) Rh NPs are formed in toluene.