For nearly a century, the Fischer–Tropsch (FT) reaction has been subject of intense debate.
Various molecular views on the active sites and on the reaction mechanism have been …

Light olefins are important feedstocks and platform molecules for the chemical industry.
Their synthesis has been a research priority in both academia and industry. There are many …

Fischer–Tropsch synthesis (FTS) is a versatile technology to produce high-quality fuels and
key building-block chemicals from syngas derived from nonpetroleum carbon resources …

Hydrogenation into light olefins is an attractive strategy for CO2 fixation into chemicals. In
this article, high throughput experimentation and extended characterization were employed …

Abstract For Fe-based Fischer-Tropsch synthesis catalyst, how to decrease CO 2 formation
is a big challenge. In this work, a capsule catalyst (FeMn@ HZSM-5) with FeMn as core and …

Currently, the CO 2 conversion to light olefins is attractive in clean energy research. Despite
numerous works on Co-Fe bimetallic catalysts, the lack of well-defined bulk structures with …

CO 2 hydrogenation is an attractive way to store and utilize carbon dioxide generated by
industrial processes, as well as to produce valuable chemicals from renewable and …

Fabrication of χ-Fe 5 C 2 active phase is important for efficient iron-based Fischer-Tropsch
synthesis but faces a challenge in the controllable synthesis of high purity phase. Herein, we …

Fischer–Tropsch to olefins (FTO) reaction is an important non-petrochemical route to
produce light olefins. Iron is the most widely used and easily obtainable metal catalyst with …

CO 2 hydrogenation to light olefins over Fe-Co-Zn/K-Al 2 O 3 catalysts with different Zn
loading contents (0–1.74 wt%) is studied. The addition of Zn improves the dispersion and …