The quickly increasing demand for sustainable energy and materials requires researchers to
develop highly efficient and stable catalytic materials for the hydrogenation of carbon …

Atomic layer deposition (ALD) offers exciting possibilities for controlling the structure and
composition of surfaces on the atomic scale in heterogeneous catalysts and solid oxide fuel …

Catalyst stability is one of the greatest challenges faced for the utilization of heterogeneous
catalysts in the development of biomass conversion to chemicals and fuels. As many …

One of the most significant challenges in the use of heterogeneous catalysts is the loss of
activity and/or selectivity with time on stream, and researchers have explored different …

The hydrogenation of CO2 to methanol using heterogeneous catalysts is an appealing route
for mitigating greenhouse gas emissions and generating useful products. The synthesis of …

Mixed oxides are ubiquitious solid acid catalysts for a number of transformations. Here, the
chemistry of mixed oxide interfaces was experimentally probed by constructing model SiO 2 …

Lignin hydrogenolysis is a key step in the sustainable production of renewable bio‐based
chemicals and fuels. Heterogeneous metal catalysts have led to high yields but they rapidly …

Using acetal-stabilized lignin we performed a truly steady state continuous high-yielding
lignin depolymerization (45% monophenolics using Ni/C), which offered a window into …

Silica deposition on the benchmark aqueous phase reforming (APR) catalyst Pt/γ-Al 2 O 3 is
studied to prevent or limit hydrolytic attack of the support under hydrothermal APR …

Atomic layer deposition (ALD) is a well‐established vapor‐phase technique for depositing
thin films with high conformality and atomically precise control over thickness. Its industrial …