1 research outputs found
Amine/Hydrido Bifunctional Nanoporous Silica with Small Metal Nanoparticles Made Onsite: Efficient Dehydrogenation Catalyst
Multifunctional
catalysts are of great interest in catalysis because their multiple
types of catalytic or functional groups can cooperatively promote
catalytic transformations better than their constituents do individually.
Herein we report a new synthetic route involving the surface functionalization
of nanoporous silica with a rationally designed and synthesized dihydrosilane
(3-aminopropylmethylsilane) that leads to the introduction of catalytically
active grafted organoamine as well as single metal atoms and ultrasmall
Pd or Ag-doped Pd nanoparticles via on-site reduction of metal ions.
The resulting nanomaterials serve as highly effective bifunctional
dehydrogenative catalysts for generation of H<sub>2</sub> from formic
acid