TY - JOUR
T1 - Infrared and temperature-programmed desorption study of acetophenone on Pd/SiO2
AU - Chen, Hsiu Wei
AU - Chen, Ching Shiun
AU - Harn, Shwu Jeng
PY - 1995
Y1 - 1995
N2 - The adsorption and reaction of acetophenone and isotope-labeled acetophenone were investigated on reduced Pd/SiO2, Pd black, and oxygen-dosed Pd/SiO2 via thermal desorption mass spectrometry and FT-IR. The support can strongly influence the decomposition reaction of acetophenone on Pd/SiO2. Acetophenone is initially coordinated to Pd/SiO2 in the η1(O) configuration at room temperature. The η1-acetophenone either desorbs without reaction or converts to η2(O,C)-acetophenone during annealing of the adlayer. The η2-acetophenone starts to decompose and/or desorb at temperatures higher than 50°C. Acetophenone decomposes to benzene, toluene, CO, H2, and hydrocarbon fragments on Pd catalysts during the course of TPD experiments. Benzene desorbs in α, β, and γ states, respectively, centered at 135, 180, and 250°C. The α state is from the benzene decomposition product of acetophenone adsorbed on the interface between Pd and SiO2. The β state is from the benzene adsorbed on the Pd metal surface. The γ state comes partly from the benzene adsorbed on the Pd surface. Some part of the γ state comes from the decomposition reaction of the acetophenone that migrates from the support to the Pd particle. Toluene desorbs in α and γ states centered at 135 and 250°C. The α state toluene comes from the reaction of the β state benzene and acetyl species at the interface between Pd and SiO2. The γ state toluene comes from the reaction of the β state benzene and acetyl species produced from the decomposition reaction of the acetophenone that migrates from the support to the Pd particle.
AB - The adsorption and reaction of acetophenone and isotope-labeled acetophenone were investigated on reduced Pd/SiO2, Pd black, and oxygen-dosed Pd/SiO2 via thermal desorption mass spectrometry and FT-IR. The support can strongly influence the decomposition reaction of acetophenone on Pd/SiO2. Acetophenone is initially coordinated to Pd/SiO2 in the η1(O) configuration at room temperature. The η1-acetophenone either desorbs without reaction or converts to η2(O,C)-acetophenone during annealing of the adlayer. The η2-acetophenone starts to decompose and/or desorb at temperatures higher than 50°C. Acetophenone decomposes to benzene, toluene, CO, H2, and hydrocarbon fragments on Pd catalysts during the course of TPD experiments. Benzene desorbs in α, β, and γ states, respectively, centered at 135, 180, and 250°C. The α state is from the benzene decomposition product of acetophenone adsorbed on the interface between Pd and SiO2. The β state is from the benzene adsorbed on the Pd metal surface. The γ state comes partly from the benzene adsorbed on the Pd surface. Some part of the γ state comes from the decomposition reaction of the acetophenone that migrates from the support to the Pd particle. Toluene desorbs in α and γ states centered at 135 and 250°C. The α state toluene comes from the reaction of the β state benzene and acetyl species at the interface between Pd and SiO2. The γ state toluene comes from the reaction of the β state benzene and acetyl species produced from the decomposition reaction of the acetophenone that migrates from the support to the Pd particle.
UR - http://www.scopus.com/inward/record.url?scp=0010697391&partnerID=8YFLogxK
U2 - 10.1021/j100026a019
DO - 10.1021/j100026a019
M3 - 文章
AN - SCOPUS:0010697391
SN - 0022-3654
VL - 99
SP - 10557
EP - 10564
JO - Journal of Physical Chemistry
JF - Journal of Physical Chemistry
IS - 26
ER -