Three periodic mesoporous materials, i.e., two organosilicas with either ethylene or phenylene bridges and one silica, have been used as supports for Pd nanoparticles. All Pd-supported samples (1.0 wt%) were prepared by the incipient wetness method and subsequently reduced in an H2 stream at 200 °C. Both hydrogen chemisorption and temperature programmed reduction experiments revealed significant differences depending on the support. Pd2+ species were more reducible on the mesoporous organosilicas than on their silica counterpart. Also, remarkable differences on the particle morphology were observed by transmission electron microscopy. All Pd-supported samples were active in the Suzuki cross-coupling reaction between bromobenzene and phenylb...
It is highly desirable to design functionalized supports in heterogeneous catalysis regarding the st...
A simple and efficient protocol is described for a Suzuki reaction catalyzed by poly(vinyl chloride)...
The development of new methods to prepare Pd-containing nanomaterials for catalysis are reported. Mo...
Three periodic mesoporous materials, i.e., two organosilicas with either ethylene or phenylene bridg...
Three periodic mesoporous materials, i.e., two organosilicas with either ethylene or phenylene brid...
[EN] A new Pd(0) catalyst supported on silica UVM-7 has been synthesized from the organometallic [Pd...
A synthesis of thiourea-bridged mesoporous organosilica is reported. Using transmission electron mic...
We present a study of the use of amine- functionalised, mesoporous silicas as supports for nanoparti...
We here report the preparation of supported palladium nanoparticles (NPs) stabilized by pendant phos...
Immobilization of catalysts on solid supports is a promising approach to combine the advantages of h...
Silica supported palladium nanoparticles (PdNPs) were prepared by a convenient one-step method, with...
Mesoporous SBA-15 silicate with a high surface area was prepared by a hydrothermal method, successiv...
Suzuki couplings of aryl bromides were efficiently performed by a polymer supported palladium cataly...
Herein we wish to report our recent results in the Mizoroki–Heck alkenylations under batch and conti...
a b s t r a c t Solid-supported nano and microparticles of Pd(0) (SS-Pd) were prepared and used as ...
It is highly desirable to design functionalized supports in heterogeneous catalysis regarding the st...
A simple and efficient protocol is described for a Suzuki reaction catalyzed by poly(vinyl chloride)...
The development of new methods to prepare Pd-containing nanomaterials for catalysis are reported. Mo...
Three periodic mesoporous materials, i.e., two organosilicas with either ethylene or phenylene bridg...
Three periodic mesoporous materials, i.e., two organosilicas with either ethylene or phenylene brid...
[EN] A new Pd(0) catalyst supported on silica UVM-7 has been synthesized from the organometallic [Pd...
A synthesis of thiourea-bridged mesoporous organosilica is reported. Using transmission electron mic...
We present a study of the use of amine- functionalised, mesoporous silicas as supports for nanoparti...
We here report the preparation of supported palladium nanoparticles (NPs) stabilized by pendant phos...
Immobilization of catalysts on solid supports is a promising approach to combine the advantages of h...
Silica supported palladium nanoparticles (PdNPs) were prepared by a convenient one-step method, with...
Mesoporous SBA-15 silicate with a high surface area was prepared by a hydrothermal method, successiv...
Suzuki couplings of aryl bromides were efficiently performed by a polymer supported palladium cataly...
Herein we wish to report our recent results in the Mizoroki–Heck alkenylations under batch and conti...
a b s t r a c t Solid-supported nano and microparticles of Pd(0) (SS-Pd) were prepared and used as ...
It is highly desirable to design functionalized supports in heterogeneous catalysis regarding the st...
A simple and efficient protocol is described for a Suzuki reaction catalyzed by poly(vinyl chloride)...
The development of new methods to prepare Pd-containing nanomaterials for catalysis are reported. Mo...