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August 10, 2023

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New calcium material functions as an ammonia synthesis catalyst

by King Abdullah University of Science and Technology

Finding catalytic power in unexpected places A new way of
manufacturing synthetic ammonia-based fertilizers could usher in an
era of greener, more environmentally friendly fertilizers. Credit:
Bing Image Creator

Researchers find calcium outshines chromium in the catalytic
production of ammonia. Working together, a humble trio of calcium
atoms have defied expectations to break apart one of the strongest
chemical bonds known. The atoms form the key part of a catalyst that
can cleave the triply bonded nitrogen molecule (N[2]), an essential
step in synthetic ammonia-based fertilizer manufacture. The discovery
could inspire new and greener ways to make fertilizer and other
essential chemicals.

Calcium's capability to catalyze the production of ammonia from
nitrogen was very unexpected, says Yoji Kobayashi, an inorganic
materials chemist from KAUST, who co-led the work. Industrial ammonia
production currently is carried out using an iron catalyst, but the
process requires high reaction temperatures and pressures, which has
prompted the search for alternatives.

"Classical ammonia synthesis catalysts are known to work well when
based on ruthenium, iron or cobalt, while they work extremely poorly
with other early transition metal compounds, such as chromium,"
Kobayashi says. But in the past few years, Kobayashi and a few other
groups have discovered several more effective hydride catalysts based
on titanium, vanadium and chromium, reinvigorating the search for new
ammonia catalysts.

Kobayashi and his team recently discovered a new chromium nitride
hydride material--which happened also to contain calcium--and showed it
could function as an ammonia synthesis catalyst. So, they decided to
look more deeply into the catalyst's mechanism, using a combination
of experimental and computational methods.

"For the computational chemistry, we collaborated with Luigi
Cavallo's group in the KAUST Catalysis Center," Kobayashi says. The
catalyst--with the formula Ca[3]CrN[3]H--has quite a complicated
structure, he adds. "There are many possible reaction sites, and each
one had to be checked to see if nitrogen conversion to ammonia is
feasible."

The results of the analysis were very surprising, Kobayashi says.
"What was really unexpected was the role of calcium," he says. "The N
[2] binds to a trio of calcium atoms on the catalyst surface, and
then is hydrogenated to become ammonia," he says. The chromium atom,
expected to be the center of the action, plays no direct role in
activating the N[2] molecule for conversion to ammonia.

Although the activity of the catalyst for ammonia synthesis is
relatively low, it opens a new research direction for catalyst
material exploration, away from the transition metal elements long
thought to be essential for this reaction. "There are many other
inorganic structures with similar atomic arrangements that we could
examine," Kobayashi says. "Our study shows that with a little
creativity, the scope of good catalyst materials can always be
expanded," he adds.

More information: Yu Cao et al, Ammonia Synthesis via an Associative
Mechanism on Alkaline Earth Metal Sites of Ca[3]CrN[3]H, ChemSusChem
(2023). DOI: 10.1002/cssc.202300234

Provided by King Abdullah University of Science and Technology  

Citation: New calcium material functions as an ammonia synthesis
catalyst (2023, August 10) retrieved 16 August 2023 from https://
phys.org/news/
2023-08-calcium-material-functions-ammonia-synthesis.html
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