In the past few decades, organic reactions under flow conditions have attracted increasing
attention. Flow reactions have a number of advantages over batch reactions in terms of …

Hydrogen (H2) was one of the first molecules discovered by our society, being the most
abundant element in the whole universe. Thus, H2 has gained a lot of attention throughout …

Selective hydrogenation of unsaturated carbonyl compounds plays a key role in the
production of fine chemicals and pharmaceutical agents. In this work, two kinds of …

Flow hydrogenation perfomed over heterogeneous catalysts makes organic synthesis more
economical, safe and environmentally friendly. Over the past two decades, a significant …

The chemoselective hydrogenation of the C double bond C bond of cinnamaldehyde (CAL)
was investigated under batch and continuous flow conditions, by comparing the …

In the field of catalysis, material scientists pay much attention to tuning the activity and
chemoselectivity of metal nanoparticles. Herein, we design and successfully synthesize a …

To date, the transformation of organic compounds to nifty chemicals plays a pivotal role in
the global industrial market and renewable economy. The substantial attention has been …

Hydrogenation is a quintessential process to the chemical industry. It is heavily involved in
organic synthesis and fuel production, among other processes. Preferentially the reactions …

The direct dehydration–hydrogenation of glycerol to n-propanol over a tandem catalytic
system containing HZSM-5 (Si/Al∼ 13) and supported Ni catalysts was studied under …

Chemoselective flow hydrogenation of 6-methyl-5-hepten-2-one was performed over nano-
nickel catalysts. The parent catalyst composed solely of nickel nanoparticles grafted on the …